enm study import fixed

author: Christoph Helma <helma@in-silico.ch> 2016-05-12 15:23:01 +0200
committer: Christoph Helma <helma@in-silico.ch> 2016-05-12 15:23:01 +0200
commit: b8bb12c8a163c238d7d4387c1914e2100bb660df (patch)
tree: 791d1524e2294d8a3a38658607a644d7576784ae /test
parent: 937bfbaf058aea5973927cb3bf6b51028b312ed9 (diff)
2530 files changed, 156811 insertions, 134 deletions
diff --git a/test/classification.rb b/test/classification.rb
index 78f22a6..df7cba9 100644
--- a/test/classification.rb
+++ b/test/classification.rb
@@ -28,12 +28,12 @@ class LazarClassificationTest < MiniTest::Test
     assert_equal compound_dataset.compounds, prediction_dataset.compounds
 
     cid = prediction_dataset.compounds[7].id.to_s
-    assert_equal "Could not find similar compounds with experimental data in the training dataset.", prediction_dataset.predictions[cid][:warning]
+    assert_equal "Could not find similar substances with experimental data in the training dataset.", prediction_dataset.predictions[cid][:warning]
     prediction_dataset.predictions.each do |cid,pred|
-      assert_equal "Could not find similar compounds with experimental data in the training dataset.", pred[:warning] if pred[:value].nil?
+      assert_equal "Could not find similar substances with experimental data in the training dataset.", pred[:warning] if pred[:value].nil?
     end
     cid = Compound.from_smiles("CCOC(=O)N").id.to_s
-    assert_equal "1 compounds have been removed from neighbors, because they have the same structure as the query compound.", prediction_dataset.predictions[cid][:warning]
+    assert_equal "1 substances have been removed from neighbors, because they are identical with the query substance.", prediction_dataset.predictions[cid][:warning]
     # cleanup
     [training_dataset,model,compound_dataset,prediction_dataset].each{|o| o.delete}
   end
diff --git a/test/data/EPAFHM.medi_log10.csv b/test/data/EPAFHM.medi_log10.csv
index 51c7a65..f67173b 100644
--- a/test/data/EPAFHM.medi_log10.csv
+++ b/test/data/EPAFHM.medi_log10.csv
@@ -1,18 +1,13 @@
-STRUCTURE_SMILES,""
+STRUCTURE_SMILES,-log10(LC50_mmol)
 C1=CC(C=O)=CC(OC)=C1OCCCCCC,1.9469215565165803
 C1(OC)=C([N+]([O-])=O)C(C=O)=CC(Br)=C1O,0.575118363368933
-CCCCCCCCOC(=O)C1=CC=CC(C(=O)OCCCCCCCC)=C1,""
 C1=CC(Cl)=CC=C1OC2=C([N+](=O)[O-])C=CC=C2,2.114073660198569
 CC1=C(NC=O)C=CC=C1Cl,0.5606673061697374
 CCCCOC(=O)C1=CC=CC(C(=O)OCCCC)=C1,2.490797477668897
 C(C1=CC=CC=C1)(C2=CC=CC=C2)(O)C#C,1.2732727909734278
 CCCSCCSCCC,1.3746875490383261
-CCCCCCCCOC(=O)C1=CC=C(C(=O)OCCCCCCCC)C=C1,""
-OCCCCOC(=O)C1=CC=CC=C1C(=O)OCCCCOC(=O)C2=CC=CC=C2C(=O)OCCCCO,""
 CCCSCCCCSCCC,1.8386319977650252
 CCCSCCCCSCCC,1.7328282715969863
-C1([N+](=O)[O-])=CC=C(C)C=C1OP(=O)(OC2=C([N+](=O)[O-])C=CC(C)=C2)OC3=C([N+]([O-])=O)C=CC(C)=C3,""
-C1=C([N+]([O-])=O)C=CC=C1P(=O)(C2=CC([N+](=O)[O-])=CC=C2)C3=CC([N+](=O)[O-])=CC=C3,""
 ClCCOC(=O)NC1CCCCC1,0.7695510786217261
 O=C1C(C2=CC=CC=C2)(C(=O)NC(=O)N1)CC,-0.31806333496276157
 OC1=C(C=C(C=C1)[N+](=O)[O-])[N+](=O)[O-],1.2276782932770802
@@ -34,7 +29,6 @@ O=C(OC1=C2C(=CC=C1)C=CC=C2)NC,1.3615107430453628
 CCO,-2.503790683057181
 C1(=NC=CC=C1C2CCCN2C).OS(O)(=O)=O,1.275724130399211
 C1(O)=CC=CC=C1C(=O)N,0.13312218566250114
-O=C1NC(=O)NC=C1,""
 CCCCCC=O,0.7569619513137056
 O=C1OC2=CC=CC=C2C(O)=C1CC3=C(O)C4=CC=CC=C4OC3=O,1.8181564120552274
 C1(C=O)=CC=C(OC2=CC=CC=C2)C=C1,1.6345120151091004
@@ -85,10 +79,8 @@ ClC(Cl)C1=C(Cl)C=CC=C1Cl,2.374687549038326
 C1=CC=C2C=CC=C3C2=C1CC3,1.9507819773298183
 CC1=CNC2=C1C=CC=C2,1.1713401034646802
 C1=CC=CC=C1OC(=O)C2=CC=CC=C2C(=O)OC3=CC=CC=C3,3.600326278518962
-O=C1C2=C(C=CC=C2)C(=O)C3=C1C=CC=C3,""
 CCOC(=O)C1=CC=CC=C1C(=O)OCC,0.8446639625349383
 C1=CC=C(C(=O)OCCCC)C(=C1)C(=O)OCCCC,2.444905551421681
-CCC1=C(Br)C(Br)=C(Br)C(Br)=C1Br,""
 O=C1C2=C(C=CC=C2)N=NN1CSP(=S)(OC)OC,3.694648630553376
 C1=CC=CC=C1NC(=O)C2=C(O)C=CC=C2,1.7328282715969863
 Cl\C(Cl)=C(Cl)/C(Cl)=C(Cl)\Cl,3.462180904926726
diff --git a/test/data/EPAFHM.mini_log10.csv b/test/data/EPAFHM.mini_log10.csv
index 0a5cca3..17f9f57 100644
--- a/test/data/EPAFHM.mini_log10.csv
+++ b/test/data/EPAFHM.mini_log10.csv
@@ -1,17 +1,12 @@
-STRUCTURE_SMILES,""
+STRUCTURE_SMILES,-log10(LC50_mmol)
 C1=CC(C=O)=CC(OC)=C1OCCCCCC,1.9469215565165803
 C1(OC)=C([N+]([O-])=O)C(C=O)=CC(Br)=C1O,0.575118363368933
-CCCCCCCCOC(=O)C1=CC=CC(C(=O)OCCCCCCCC)=C1,""
 C1=CC(Cl)=CC=C1OC2=C([N+](=O)[O-])C=CC=C2,2.114073660198569
 CC1=C(NC=O)C=CC=C1Cl,0.5606673061697374
 CCCCOC(=O)C1=CC=CC(C(=O)OCCCC)=C1,2.490797477668897
 C(C1=CC=CC=C1)(C2=CC=CC=C2)(O)C#C,1.2732727909734278
 CCCSCCSCCC,1.3746875490383261
-CCCCCCCCOC(=O)C1=CC=C(C(=O)OCCCCCCCC)C=C1,""
-OCCCCOC(=O)C1=CC=CC=C1C(=O)OCCCCOC(=O)C2=CC=CC=C2C(=O)OCCCCO,""
 CCCSCCCCSCCC,1.8386319977650252
-C1([N+](=O)[O-])=CC=C(C)C=C1OP(=O)(OC2=C([N+](=O)[O-])C=CC(C)=C2)OC3=C([N+]([O-])=O)C=CC(C)=C3,""
-C1=C([N+]([O-])=O)C=CC=C1P(=O)(C2=CC([N+](=O)[O-])=CC=C2)C3=CC([N+](=O)[O-])=CC=C3,""
 ClCCOC(=O)NC1CCCCC1,0.7695510786217261
 O=C1C(C2=CC=CC=C2)(C(=O)NC(=O)N1)CC,-0.31806333496276157
 OC1=C(C=C(C=C1)[N+](=O)[O-])[N+](=O)[O-],1.2276782932770802
@@ -19,4 +14,3 @@ NC(=O)OCC,-1.7693773260761385
 [O-]C(C1=CC=CC=C1O)=O.[Na+],-1.0969100130080565
 C1=CC=CC=C1C(=O)N,-0.7371926427047373
 CC[N+](CC)(CC)CC1(=CC=CC=C1).[Cl-],0.1505805862031006
-OCCCCCCCC\C=C/CCCCCCCC,""
diff --git a/test/data/EPAFHM_log10.csv b/test/data/EPAFHM_log10.csv
index 034764b..9294f24 100644
--- a/test/data/EPAFHM_log10.csv
+++ b/test/data/EPAFHM_log10.csv
@@ -1,17 +1,12 @@
-STRUCTURE_SMILES,""
+STRUCTURE_SMILES,-log10(LC50_mmol)
 C1=CC(C=O)=CC(OC)=C1OCCCCCC,1.9469215565165803
 C1(OC)=C([N+]([O-])=O)C(C=O)=CC(Br)=C1O,0.575118363368933
-CCCCCCCCOC(=O)C1=CC=CC(C(=O)OCCCCCCCC)=C1,""
 C1=CC(Cl)=CC=C1OC2=C([N+](=O)[O-])C=CC=C2,2.114073660198569
 CC1=C(NC=O)C=CC=C1Cl,0.5606673061697374
 CCCCOC(=O)C1=CC=CC(C(=O)OCCCC)=C1,2.490797477668897
 C(C1=CC=CC=C1)(C2=CC=CC=C2)(O)C#C,1.2732727909734278
 CCCSCCSCCC,1.3746875490383261
-CCCCCCCCOC(=O)C1=CC=C(C(=O)OCCCCCCCC)C=C1,""
-OCCCCOC(=O)C1=CC=CC=C1C(=O)OCCCCOC(=O)C2=CC=CC=C2C(=O)OCCCCO,""
 CCCSCCCCSCCC,1.8386319977650252
-C1([N+](=O)[O-])=CC=C(C)C=C1OP(=O)(OC2=C([N+](=O)[O-])C=CC(C)=C2)OC3=C([N+]([O-])=O)C=CC(C)=C3,""
-C1=C([N+]([O-])=O)C=CC=C1P(=O)(C2=CC([N+](=O)[O-])=CC=C2)C3=CC([N+](=O)[O-])=CC=C3,""
 ClCCOC(=O)NC1CCCCC1,0.7695510786217261
 O=C1C(C2=CC=CC=C2)(C(=O)NC(=O)N1)CC,-0.31806333496276157
 OC1=C(C=C(C=C1)[N+](=O)[O-])[N+](=O)[O-],1.2276782932770802
@@ -35,7 +30,6 @@ O=C(OC1=C2C(=CC=C1)C=CC=C2)NC,1.3615107430453628
 CCO,-2.503790683057181
 C1(=NC=CC=C1C2CCCN2C).OS(O)(=O)=O,1.275724130399211
 C1(O)=CC=CC=C1C(=O)N,0.13312218566250114
-O=C1NC(=O)NC=C1,""
 CCCCCC=O,0.7569619513137056
 O=C1OC2=CC=CC=C2C(O)=C1CC3=C(O)C4=CC=CC=C4OC3=O,1.8181564120552274
 C1(C=O)=CC=C(OC2=CC=CC=C2)C=C1,1.6345120151091004
@@ -85,12 +79,9 @@ ClC(Cl)C1=C(Cl)C=CC=C1Cl,2.374687549038326
 C1=CC=C2C=CC=C3C2=C1CC3,1.9507819773298183
 CC1=CNC2=C1C=CC=C2,1.1713401034646802
 O=C([C@](C(C=C4OC)=C(C=C4OC)OC3)([H])[C@]3([H])O2)C(C=C5)=C2C1=C5O[C@@H]([C@@](C)=C)C1,4.87942606879415
-O=C2C1=NC3=C(C=C(C)C(C)=C3)N(C[C@H](O)[C@H](O)[C@H](O)CO)C1=NC(N2)=O,""
 C1=CC=CC=C1OC(=O)C2=CC=CC=C2C(=O)OC3=CC=CC=C3,3.600326278518962
-O=C1C2=C(C=CC=C2)C(=O)C3=C1C=CC=C3,""
 CCOC(=O)C1=CC=CC=C1C(=O)OCC,0.8446639625349383
 C1=CC=C(C(=O)OCCCC)C(=C1)C(=O)OCCCC,2.444905551421681
-CCC1=C(Br)C(Br)=C(Br)C(Br)=C1Br,""
 O=C1C2=C(C=CC=C2)N=NN1CSP(=S)(OC)OC,3.694648630553376
 C1=CC=CC=C1NC(=O)C2=C(O)C=CC=C2,1.7328282715969863
 Cl\C(Cl)=C(Cl)/C(Cl)=C(Cl)\Cl,3.462180904926726
@@ -103,14 +94,12 @@ OC1=C(C=C(C=C1C(CC)C)[N+](=O)[O-])[N+](=O)[O-],2.6516951369518393
 O=CC1=CC=CC=C1O,1.7258421507363202
 OC1=CC=CC2=CC=CC=C12,1.4934949675951281
 OC1=C(C=CC=C1)C2=CC=CC=C2,1.442492798094342
-C12C(=O)C3=C(OC=1C=CC=C2)C=CC=C3,""
 BrC1=C(O)C(C=O)=CC(Br)=C1,2.517126416391246
 C1=C2C(=CC=C1)C=CC=C2,1.3196644865854368
 N1=CC=CC2=C1C=CC=C2,0.22040350874217546
 CCN(CC)C1CCCCC1,0.8601209135987634
 CCN(CC)C1=CC=CC=C1,0.958607314841775
 OCCN(CC)C1=CC(C)=CC=C1,0.530177984021837
-C1CCCCC1C2CCCCC2,""
 C1=CC=CC=C1C(=O)CC(=O)C,2.1687703061329366
 C1=CC(N)=CC=C1C(=O)OCC,0.6655462488490691
 O1COC2=CC=C(/C=C/C=C/C(=O)N3CCCCC3)C=C12,1.5606673061697374
@@ -160,13 +149,11 @@ CCNC1=CC(C)=CC=C1,0.43651891460558934
 CCCN(CCC)CCC,0.4497716469449059
 OCCN(CCO)CCO,-1.8981764834976764
 C1=CC=CC=C1CCC(C)(C)O,0.393618634889395
-C1=CC(C)=CC=C1SSC2=CC=C(C)C=C2,""
 OCCN1CCNCC1,-1.6919651027673603
 CN(C)CC1=CC=CC=C1,0.5528419686577808
 C1(=CC=C(C=C1)O)NC(C)=O,-0.7315887651867387
 NC1=CC=C(CCCC)C=C1,1.1674910872937636
 CCCCCCCCCC1=CC=C(O)C=C1,3.1972262747080245
-NC1=CC=C(CCCCCCCCCCCC)C=C1,""
 CCC(CCCC)CO,0.6635402661514704
 ClC1=CC=C(C=O)C=C1,1.8068754016455384
 N1=C(C)C=CC(CC)=C1,0.17457388223217685
@@ -255,7 +242,6 @@ CCCCCCCCCC(=O)C,2.055024091587952
 CCCCCCCCCN,1.8239087409443189
 OCCOCCOCCO,-2.661812685537261
 CCCCCCCCCCO,1.8181564120552274
-CCCCCCCCCCCCCO,""
 CC(C)OC1=CC=CC=C1OC(=O)NC,1.3757179041643317
 CC(O)(C)C#C,-1.5921767573958667
 C(Cl)(Cl)(Cl)CO,-0.3010299956639812
@@ -263,8 +249,6 @@ OC(C1=CC=C(C=C1)Cl)(C2=CC=C(C=C2)Cl)C(Cl)(Cl)Cl,2.7772835288524167
 C1=CC=CC=C1OP(=O)(OC2=CC=CC=C2)OC3=CC=CC=C3,2.575118363368933
 S(=O)(C)C1=CC=C(OP(=S)(OCC)OCC)C=C1,0.8538719643217619
 CC(C=NOC(=O)NC)(SC)C,2.344861565188618
-O=C(C1=C(C=CC=C1)C(=O)OCC(CCCC)CC)OCC(CCCC)CC,""
-CCCCCCCCOC(=O)C1=CC=CC=C1C(=O)OCCCCCCCC,""
 C1=CC=CC(O)=C1C(=O)OC2=CC=CC=C2,2.258848401148215
 C1=CC=CC(O)=C1C(=O)OCC,0.9136401693252518
 OC1=C(Br)C=C(Br)C=C1Br,1.7033348097384688
@@ -293,7 +277,6 @@ CCCC=O,0.6903698325741012
 CC(=O)OCCCC,0.8096683018297085
 C1COCCO1,-2.0681858617461617
 CCCCCCCCCCCCN,3.2549252084179425
-CCCCCCCCCCCCCC=O,""
 CCCCOP(=O)(OCCCC)OCCCC,1.448550002027125
 O=C(CC(=O)C1)CC1(C)C,-1.9138138523837167
 OC(C)CCl,-0.4132997640812518
@@ -318,7 +301,6 @@ CC(=O)OCCCCCC,1.5157001606532141
 CCCCOCCCC,0.6055483191737837
 CCCCCCCCCO,1.4034029043735399
 CCCCCCNCCCCCC,2.3757179041643317
-OCCCCCCCC\C=C/CCCCCCCC,""
 C1(C=O)=C(O)C(OC)=CC=C1,1.8013429130455774
 OC1=CC(OC)=CC=C1,0.2247537402597636
 COC1=CC=C(C=C1)O,0.05256627811294924
@@ -342,12 +324,10 @@ C1(C=O)=C(F)C=CC=C1,1.9625735020593764
 C1=CC=CC(=C1C(F)(F)F)C#N,0.6073030467403343
 C1(C=O)=CC(C(F)(F)F)=CC=C1,2.274905478918531
 CNC1=CC=C(F)C=C1,0.5128616245228135
-CCCCCCC(=O)CCCCCC,""
 O[C@H]1[C@@]([C@@](C)2C)(C)CC[C@H]2C1,0.38721614328026455
 O=C(CC1C2)C(C2)(C1(C)C)C,0.9507819773298184
 CC2(C)OC1(C)CCC2CC1,0.17979854051435976
 O=[C@](O)[C@@]1(C)[C@]([C@]([C@]([H])2CC3)(C)CCC1)([H])CCC2=C\C3=C(C)/C,2.30715308072277
-N1=C(C2=CC=CC=C2)NC(C3=CC=CC=C3)=C1C4=CC=CC=C4,""
 C1COC2=CC=CC=C12,0.16749108729376366
 O[C@H]1[C@H](CC2)C[C@H]2C1,-0.3074960379132129
 C1C2C=CC1CC2,0.9746941347352298
@@ -379,12 +359,10 @@ CC(C)CC=O,1.4236586497942072
 CCCCC(=O)C,-0.6304278750250238
 CC=CC=CC,0.6143937264016879
 CCCCCCCCCCCC(=O)C,2.7423214251308154
-C1=CC=CC=C1[Sn](C2=CC=CC=C2)(C3=CC=CC=C3)C4=CC=CC=C4,""
 [H][C@]1(CC2)C(C)(C)CCC[C@@](C)1[C@@H](CC[C@@](O)(C)C=C)C2=C,3.384049948343599
 CC[Sn](CC)(CC)CC,4.329754146925876
 CC(C)C(C)N,-0.5132176000679389
 CC(C)C(O)C(C)C,-0.146128035678238
-C1=CC=CC=C1N(C2=CC=CC=C2)C3=CC=CC=C3,""
 C1=CC=CC=C1N(C2=CC=CC=C2)C=O,0.8124792791635369
 CCOC(=O)C(CC1=CC=CC=C1)C(=O)OCC,1.6635402661514704
 OC1=C(Br)C(Br)=C(Br)C(Br)=C1Br,3.721246399047171
@@ -400,7 +378,6 @@ C1=CC=C(CS(=O)CC2=CC=CC=C2)C=C1,0.45842075605341914
 OC1=CC(NC(=O)C)=CC=C1,-0.8739015978644614
 OCCN1CCOCC1,-1.3159703454569178
 ClCC1=CC=C(CCl)C=C1,3.6516951369518393
-IC1=CC=C(I)C=C1,""
 O1C(C)=CC=C1C,0.13076828026902382
 ClCCCCCCl,0.7471469690201069
 BrCCCCCCC,2.0856568428805593
@@ -430,7 +407,6 @@ N1=C(O)C(C#N)=C(C)C=C1C,-0.02530586526477026
 NC1=C(F)C(F)=C(F)C(F)=C1F,0.692503962086787
 ClC1=CC=C(SCSP(=S)(OCC)OCC)C=C1,3.154901959985743
 C1=CC=CC=C1P(=O)(C2=CC=CC=C2)C3=CC=CC=C3,0.7144426909922262
-C1=CC(N(C)C)=CC=C1P(=O)(C2=CC=C(N(C)C)C=C2)C3=CC=C(N(C)C)C=C3,""
 C=CC(=O)OCCO,1.3829996588791011
 C#CC(O)CCCCC,2.485452247339714
 CCCCCCCC(=O)C,0.9706162223147904
@@ -440,7 +416,6 @@ C=C(C)C(=O)OCCO,-0.24054924828259971
 C1(Br)=CSC=C1,1.4202164033831899
 O=CC1=C(Cl)C=C(Cl)C=C1,1.9871627752948278
 C1=CC=CC=C1SSC2=CC=CC=C2,3.2975694635544746
-C1(=CC=CC=C1)/C=C/C=C/C2=CC=CC=C2,""
 O=C(OCC)C1=CC(N)=CC=C1.OS(C)(=O)=O,0.5199930570428494
 C(F)(F)(F)C(O)C(F)(F)(F),-0.16136800223497488
 C=CC(O)CC=C,0.41116827440579273
@@ -450,11 +425,9 @@ CC/C=C/CCO,-0.4329692908744057
 CN1C(C(=O)C)=CC=C1,-0.10720996964786837
 N1=CC=C(C2=CC=CC=C2)C=C1,0.9829666607012196
 C1=CC=CC=C1S(=O)C2=CC=CC=C2,0.3645162531850879
-C1=CC=CC=C1C2=CC=C(C3=CC=CC=C3)O2,""
 C=CC(=O)OCC(O)C,1.585026652029182
 N1=C(N)C=CC(Br)=C1,-0.008600171761917567
 CCOP(=O)(CC1=CC=CC=C1)OCC,-0.16731733474817606
-CCCCCCCCCCCC(=O)N,""
 N1=CC=C(C(=O)C)C=C1,-0.14301480025409505
 C1=CC(Cl)=CC=C1C(=O)OC,1.193820026016113
 CCCCOC1=CC=CC=C1,1.4202164033831899
@@ -486,7 +459,6 @@ CCOP(=S)(OC1=CC=C(C=C1)[N+](=O)[O-])C2=CC=CC=C2,3.614393726401688
 OC(C)CC#C,0.3798639450262425
 OC1=C(O)C=C(Cl)C=C1,1.9625735020593764
 C1(O)=CC(O)=CC=C1C(=O)OC,0.5654310959658013
-C=CC(=O)OCCCCCCCCCCCC,""
 N1=C(Cl)C(Cl)=C(Cl)C(Cl)=C1Cl,2.728158393463501
 C1[C@H](C[C@H]([C@@H](C1)C(C)C)O)C,0.9172146296835499
 C1=CN=CN1S(=O)(=O)C2=CC=C(C)C=C2,0.7258421507363202
@@ -504,7 +476,6 @@ OC1=C(OC)C=C(Cl)C(Cl)=C1,1.6345120151091004
 C=C(C)C(=O)OCC1=CC=CC=C1,1.576754126063192
 C=CC(=O)OCCCCCC,2.1487416512809245
 CC(C)(C)C1=CC=C(OC(=O)NC)C=C1,1.3169529617611504
-N1=C(CCN)C=CC=C1,""
 C1=CC=CC=C1CN2CCNCC2,0.5702477199975919
 N1=CC=CC(=C1)CCCO,-0.03742649794062367
 CCCCCCCCCCCCCN,3.484126156288321
@@ -513,14 +484,11 @@ C1(Cl)=CC=C(Cl)C=C1C(=O)OC,1.1655792963184675
 S=P(OC1=NC(=C(C=C1Cl)Cl)Cl)(OCC)OCC,3.042392712939905
 C1(OC)=CC(C=O)=CC(Br)=C1O,0.5883802940367698
 C=CC(=O)OC1CCCCC1,2.0177287669604316
-S(C1=CC=C(Cl)C=C1)(=O)C2=CC=C(Cl)C=C2,""
 CCOC(=O)N(C(=O)OCC)C(=O)OCC,1.2441251443275085
 OC1=C(O)C=C(Cl)C(Cl)=C1,2.303643611266668
 NC1=C(Cl)C(Cl)=CC(Cl)=C1Cl,2.9318141382538383
 N1=C(C2=CC=CC=C2)C=CC=C1C3=CC=CC=C3,3.041914151478915
 ClC1=CC(Cl)=C([N+]([O-])=O)C=C1[N+]([O-])=O,3.7166987712964503
-C1(Cl)=CC(Cl)=C(Cl)C=C1SSC2=C(Cl)C=C(Cl)C(Cl)=C2,""
-C1=C(C)C(C)=CC=C1OP(=O)(OC2=CC(C)=C(C)C=C2)OC3=CC(C)=C(C)C=C3,""
 CCC(C)C(C)C=O,0.8538719643217619
 C(O)C#CCCCCCCC,2.158640529545145
 N1=C(O)C=CC(Cl)=C1,-0.9444826721501687
@@ -578,19 +546,16 @@ NC1=CC=C(CCCCCCCC)C=C1,3.2335871528876003
 CSC(C)=NOC(=O)NC,1.8860566476931633
 N1=C(O)C=CC=C1Cl,-0.21748394421390624
 NC1=NN=C(C)C(C)=N1,-0.884795363948981
-C1=CC([N+]([O-])=O)=CC([N+](=O)[O-])=C1OC2=CC=C(Br)C=C2,""
 O=CC1=CC=C(N(CC)CC)C=C1O,1.5575202309355514
 N1=C(C)C=CC=C1Cl,-0.2600713879850748
 C#CC(CCC(C)C)(C)O,0.4571745730408201
 CC1=C(C)OC(C)=N1,-0.6063813651106049
 CC(=O)C(C)CN(C)C,1.1817741063860445
-C1=CC([N+](=O)[O-])=CC=C1OC2=CC(C)=C(Cl)C=C2,""
 C1=CC=C(Br)C=C1C(=O)N,0.33441900898204685
 O=C(C(=NOC(=O)NC)SC)N(C)C,1.5100415205751654
 NC1=C(C(C)C)C=CC=C1C(C)C,1.0639892042847905
 [Na+].[N-]=[N+]=[N-],1.0757207139381184
 C[N+](C1=CC=CC=C1)(C)C.[O-]S(=O)(=O)OC,-0.0
-ClC1=C(C(=C(C(=C1Cl)Cl)Cl)Cl)C(=C(Cl)Cl)Cl,""
 CC(C)(O)C(F)(C(F)F)F,-0.5611013836490559
 CCC(N)C,-0.5751878449276611
 COCCCNCC1=CC(OC)=C(OC)C(OC)=C1,0.2967086218813386
@@ -606,11 +571,9 @@ CCCCCCCCOC1=CC=CC=C1NC(=O)C,2.7670038896078464
 C1=CC(C(C)(C)C)=CC=C1C(=O)N,0.744727494896694
 CSCCCCCCSC,1.2471835688117285
 CC(O)C#C,0.7772835288524167
-C1(C)=C(C)C=CC=C1OP(=O)(OC2=C(C)C(C)=CC=C2)OC3=C(C)C(C)=CC=C3,""
 C1C(=CC=C[N+]=1CC2C=CC=CC=2)S(=O)(=O)[O-],-0.9854264740830017
 C1=CC(C(C)(C)C)=CC=C1OC2=CC=CC(C=O)=C2,2.838631997765025
 O=C(OC(C2=CC=CC(OC3=CC=CC=C3)=C2)C#N)[C@H](C1=CC=C(OC(F)F)C=C1)[C@H](C)C,6.375717904164332
-ClC1=CC=CC(Cl)=C1OP(=O)(OC2=C(Cl)C=CC=C2Cl)OC3=C(Cl)C=CC=C3Cl,""
 C1=C(C=O)C=CC=C1OC2=CC(Cl)=C(Cl)C=C2,2.9507819773298185
 [Na+].O.O.[O-]C1=C([N+]([O-])=O)C=C([N+]([O-])=O)C2=CC=CC=C12,1.8386319977650252
 CC(C)(C)C1=CC=C(C=C)C=C1,2.51427857351842
diff --git a/test/data/enm/enm-dump.rb b/test/data/enm/enm-dump.rb
deleted file mode 100644
index 88667fc..0000000
--- a/test/data/enm/enm-dump.rb
+++ /dev/null
@@ -1,17 +0,0 @@
-require 'json'
-
-#get list of bundle URIs
-`wget 'https://data.enanomapper.net/bundle?media=application%2Fjson' -O bundles.json`
-json = JSON.parse File.read('./bundles.json')
-json["dataset"].each do |dataset|
-  uri = dataset["URI"]
-  id = uri.split("/").last
-  #`wget --header='accept:application/json' '#{uri}' -O 'bundle#{id}'`
-  `wget --header='accept:application/ld+json' '#{uri}/substance' -O 'study#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["summary"]}' -O 'summary#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["compound"]}' -O 'compound#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["substance"]}' -O 'substance#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["property"]}' -O 'property#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["dataset"]}' -O 'dataset#{id}.json'`
-  #`wget --header='accept:application/json' '#{dataset["matrix"]}' -O 'matrix#{id}.json'`
-end
diff --git a/test/data/enm/enm-import.rb b/test/data/enm/enm-import.rb
deleted file mode 100644
index 37bc22b..0000000
--- a/test/data/enm/enm-import.rb
+++ /dev/null
@@ -1,47 +0,0 @@
-require_relative '../lib/lazar.rb'
-include OpenTox
-$mongo.database.drop
-$gridfs = $mongo.database.fs
-
-#get list of bundle URIs
-bundles = JSON.parse(RestClientWrapper.get('https://data.enanomapper.net/bundle?media=application%2Fjson'))["dataset"]
-bundles.each do |bundle|
-  uri = bundle["URI"]
-  nanoparticles = JSON.parse(RestClientWrapper.get(bundle["dataset"]+"?media=application%2Fjson"))["dataEntry"]
-  features = JSON.parse(RestClientWrapper.get(bundle["property"]+"?media=application%2Fjson"))["feature"]
-  nanoparticles.each do |np|
-      nanoparticle = Nanoparticle.find_or_create_by(
-        :name => np["values"]["https://data.enanomapper.net/identifier/name"],
-        :source => np["compound"]["URI"],
-      )
-      nanoparticle.bundles << uri
-      nanoparticle.bundles.uniq!
-      np["composition"].each do |comp|
-        case comp["relation"]
-        when "HAS_CORE"
-          nanoparticle.core = comp["component"]["compound"]["URI"]
-        when "HAS_COATING"
-          nanoparticle.coating << comp["component"]["compound"]["URI"]
-        end
-      end if np["composition"]
-      np["values"].each do |u,v|
-        if u.match(/property/)
-          name, unit, source = nil
-          features.each do |uri,feat|
-            if u.match(/#{uri}/)
-              name = feat["title"]
-              unit = feat["units"]
-              source = uri
-            end
-          end
-          feature = Feature.find_or_create_by(
-            :name => name,
-            :unit => unit,
-            :source => source
-          )
-        end
-        v.each{|value| nanoparticle.parse_ambit_value feature, value} if v.is_a? Array
-      end
-      nanoparticle.save!
-  end
-end
diff --git a/test/data/enm/nanoparticle-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json b/test/data/enm/nanoparticle-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json
index 2301df6..e5cedf9 100644
--- a/test/data/enm/nanoparticle-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json
+++ b/test/data/enm/nanoparticle-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json
@@ -20,9 +20,9 @@
         "loValue": 140
       }
     ],
-    "https://data.enanomapper.net/property/P-CHEM/SURFACE_CHEMISTRY_SECTION/ATOMIC+COMPOSITION/6F329893E3E7E48B645396FA27B8A2DCA31ED8EE/NOTSPECIFIED/d41d8cd9-8f00-3204-a980-0998ecf8427e": [
+    "https://data.enanomapper.net/property/P-CHEM/SPECIFIC_SURFACE_AREA_SECTION/SPECIFIC_SURFACE_AREA/CB2C470CE72633F6112D75138FF457C6B62247D2/NOTSPECIFIED/d41d8cd9-8f00-3204-a980-0998ecf8427e": [
       {
-        "loValue": "Triethoxycaprylsilane"
+        "loValue": 16
       }
     ],
     "https://data.enanomapper.net/property/P-CHEM/SURFACE_CHEMISTRY_SECTION/ATOMIC+COMPOSITION/34B336573C015AF89068B6685256FD68F1DF39B4/NOTSPECIFIED/d41d8cd9-8f00-3204-a980-0998ecf8427e": [
@@ -30,9 +30,9 @@
         "loValue": "ZnO"
       }
     ],
-    "https://data.enanomapper.net/property/P-CHEM/SPECIFIC_SURFACE_AREA_SECTION/SPECIFIC_SURFACE_AREA/CB2C470CE72633F6112D75138FF457C6B62247D2/NOTSPECIFIED/d41d8cd9-8f00-3204-a980-0998ecf8427e": [
+    "https://data.enanomapper.net/property/P-CHEM/SURFACE_CHEMISTRY_SECTION/ATOMIC+COMPOSITION/6F329893E3E7E48B645396FA27B8A2DCA31ED8EE/NOTSPECIFIED/d41d8cd9-8f00-3204-a980-0998ecf8427e": [
       {
-        "loValue": 16
+        "loValue": "Triethoxycaprylsilane"
       }
     ]
   },
@@ -64,10 +64,10 @@
 
         ],
         "bundles": {
-          "https://data.enanomapper.net/bundle/1": {
+          "https://data.enanomapper.net/bundle/6": {
             "count": 1,
             "tag": null,
-            "remarks": "NanoWiki"
+            "remarks": null
           }
         }
       },
@@ -114,10 +114,10 @@
 
         ],
         "bundles": {
-          "https://data.enanomapper.net/bundle/1": {
+          "https://data.enanomapper.net/bundle/6": {
             "count": 1,
             "tag": null,
-            "remarks": "NanoWiki"
+            "remarks": null
           }
         }
       },
@@ -143,10 +143,10 @@
     }
   ],
   "bundles": {
-    "https://data.enanomapper.net/bundle/1": {
+    "https://data.enanomapper.net/bundle/6": {
       "count": 1,
       "tag": null,
-      "remarks": "NanoWiki"
+      "remarks": null
     }
   }
 }
diff --git a/test/data/enm/study-FCSV-0000ec94-d7ad-301e-a7ee-e827a0297485.json b/test/data/enm/study-FCSV-0000ec94-d7ad-301e-a7ee-e827a0297485.json
new file mode 100644
index 0000000..bb7fb00
--- /dev/null
+++ b/test/data/enm/study-FCSV-0000ec94-d7ad-301e-a7ee-e827a0297485.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0000ec94-d7ad-301e-a7ee-e827a0297485",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 271.163,
+        "errQualifier": "sd",
+        "errorValue": 1.967
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.064
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-00573bc3-40d3-30ab-b785-af6955d501f6.json b/test/data/enm/study-FCSV-00573bc3-40d3-30ab-b785-af6955d501f6.json
new file mode 100644
index 0000000..d238dc2
--- /dev/null
+++ b/test/data/enm/study-FCSV-00573bc3-40d3-30ab-b785-af6955d501f6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-00573bc3-40d3-30ab-b785-af6955d501f6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.057,
+        "errQualifier": "sd",
+        "errorValue": 0.05
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.143,
+        "errQualifier": "std",
+        "errorValue": 1.279
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-00a42c73-cd70-3425-bc04-ba0f3acd891a.json b/test/data/enm/study-FCSV-00a42c73-cd70-3425-bc04-ba0f3acd891a.json
new file mode 100644
index 0000000..ad8965c
--- /dev/null
+++ b/test/data/enm/study-FCSV-00a42c73-cd70-3425-bc04-ba0f3acd891a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-00a42c73-cd70-3425-bc04-ba0f3acd891a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.017,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.917,
+        "errQualifier": "std",
+        "errorValue": 0.338
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-00b32641-d599-317a-9727-4844af596b1f.json b/test/data/enm/study-FCSV-00b32641-d599-317a-9727-4844af596b1f.json
new file mode 100644
index 0000000..21ec2bb
--- /dev/null
+++ b/test/data/enm/study-FCSV-00b32641-d599-317a-9727-4844af596b1f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-00b32641-d599-317a-9727-4844af596b1f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.35,
+        "errQualifier": "sd",
+        "errorValue": 0.241
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-00b548c5-6341-3b3e-b190-bdd1adfaa74f.json b/test/data/enm/study-FCSV-00b548c5-6341-3b3e-b190-bdd1adfaa74f.json
new file mode 100644
index 0000000..a94e73d
--- /dev/null
+++ b/test/data/enm/study-FCSV-00b548c5-6341-3b3e-b190-bdd1adfaa74f.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-00b548c5-6341-3b3e-b190-bdd1adfaa74f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.088,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.106,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-00b9b03e-4111-321f-9d81-b9125909ae66.json b/test/data/enm/study-FCSV-00b9b03e-4111-321f-9d81-b9125909ae66.json
new file mode 100644
index 0000000..1e93586
--- /dev/null
+++ b/test/data/enm/study-FCSV-00b9b03e-4111-321f-9d81-b9125909ae66.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-00b9b03e-4111-321f-9d81-b9125909ae66",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 225.663,
+        "errQualifier": "sd",
+        "errorValue": 17.037
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.032
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-01abb810-9868-3db0-8288-79e3c99be0b3.json b/test/data/enm/study-FCSV-01abb810-9868-3db0-8288-79e3c99be0b3.json
new file mode 100644
index 0000000..72b313d
--- /dev/null
+++ b/test/data/enm/study-FCSV-01abb810-9868-3db0-8288-79e3c99be0b3.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-01abb810-9868-3db0-8288-79e3c99be0b3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-01eb473c-fdb5-350f-b583-e197bf336fd4.json b/test/data/enm/study-FCSV-01eb473c-fdb5-350f-b583-e197bf336fd4.json
new file mode 100644
index 0000000..28d02b3
--- /dev/null
+++ b/test/data/enm/study-FCSV-01eb473c-fdb5-350f-b583-e197bf336fd4.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-01eb473c-fdb5-350f-b583-e197bf336fd4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.002,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -9.251,
+        "errQualifier": "std",
+        "errorValue": 2.422
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-02153b0c-9d4d-3bbc-9c85-e9186005d2e7.json b/test/data/enm/study-FCSV-02153b0c-9d4d-3bbc-9c85-e9186005d2e7.json
new file mode 100644
index 0000000..f00de5a
--- /dev/null
+++ b/test/data/enm/study-FCSV-02153b0c-9d4d-3bbc-9c85-e9186005d2e7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-02153b0c-9d4d-3bbc-9c85-e9186005d2e7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.723,
+        "errQualifier": "sd",
+        "errorValue": 0.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0228f0ad-b54f-35be-8d4b-ea8f97db9d39.json b/test/data/enm/study-FCSV-0228f0ad-b54f-35be-8d4b-ea8f97db9d39.json
new file mode 100644
index 0000000..e6ba2a2
--- /dev/null
+++ b/test/data/enm/study-FCSV-0228f0ad-b54f-35be-8d4b-ea8f97db9d39.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-0228f0ad-b54f-35be-8d4b-ea8f97db9d39",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.267,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.317,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.23,
+        "errQualifier": "sd",
+        "errorValue": 0.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0235de81-0a29-31f4-a3e6-b45485c88a21.json b/test/data/enm/study-FCSV-0235de81-0a29-31f4-a3e6-b45485c88a21.json
new file mode 100644
index 0000000..bf64768
--- /dev/null
+++ b/test/data/enm/study-FCSV-0235de81-0a29-31f4-a3e6-b45485c88a21.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0235de81-0a29-31f4-a3e6-b45485c88a21",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.013,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.239,
+        "errQualifier": "std",
+        "errorValue": 1.703
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-02719665-14fc-3005-8d86-43499af783ec.json b/test/data/enm/study-FCSV-02719665-14fc-3005-8d86-43499af783ec.json
new file mode 100644
index 0000000..533d703
--- /dev/null
+++ b/test/data/enm/study-FCSV-02719665-14fc-3005-8d86-43499af783ec.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-02719665-14fc-3005-8d86-43499af783ec",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-02805afa-31cd-3de4-be08-b908a63575c6.json b/test/data/enm/study-FCSV-02805afa-31cd-3de4-be08-b908a63575c6.json
new file mode 100644
index 0000000..48e94a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-02805afa-31cd-3de4-be08-b908a63575c6.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-02805afa-31cd-3de4-be08-b908a63575c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":3\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":2\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":39\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":67\n}\n,\"P01009\":{\n\t\"loValue\":43\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":9\n}\n,\"P01023\":{\n\t\"loValue\":59\n}\n,\"P01024\":{\n\t\"loValue\":46\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":28\n}\n,\"P01857\":{\n\t\"loValue\":12\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":18\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":7\n}\n,\"P02649\":{\n\t\"loValue\":5\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":27\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":8\n}\n,\"P04004\":{\n\t\"loValue\":82\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":25\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":8\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":12\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":4\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":22\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":170\n}\n,\"P0C0L5\":{\n\t\"loValue\":9\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":4\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":12\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":9\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":3\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":2\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":103\n}\n,\"P19827\":{\n\t\"loValue\":94\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":21\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":2\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":59\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":11\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":10\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":88\n}\n,\"Q14624\":{\n\t\"loValue\":14\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":3\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-02d6ae10-9b28-3d39-afc5-70cc57e11381.json b/test/data/enm/study-FCSV-02d6ae10-9b28-3d39-afc5-70cc57e11381.json
new file mode 100644
index 0000000..58028ae
--- /dev/null
+++ b/test/data/enm/study-FCSV-02d6ae10-9b28-3d39-afc5-70cc57e11381.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-02d6ae10-9b28-3d39-afc5-70cc57e11381",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 467.795,
+        "errQualifier": "sd",
+        "errorValue": 17.443
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.043
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-031c747a-a865-3db8-8fbc-af72c00c6778.json b/test/data/enm/study-FCSV-031c747a-a865-3db8-8fbc-af72c00c6778.json
new file mode 100644
index 0000000..af69b32
--- /dev/null
+++ b/test/data/enm/study-FCSV-031c747a-a865-3db8-8fbc-af72c00c6778.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-031c747a-a865-3db8-8fbc-af72c00c6778",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.282,
+        "errQualifier": "sd",
+        "errorValue": 1.024
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0337b2d8-337c-3868-92e6-e1c3b2cd413b.json b/test/data/enm/study-FCSV-0337b2d8-337c-3868-92e6-e1c3b2cd413b.json
new file mode 100644
index 0000000..51c9dce
--- /dev/null
+++ b/test/data/enm/study-FCSV-0337b2d8-337c-3868-92e6-e1c3b2cd413b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-0337b2d8-337c-3868-92e6-e1c3b2cd413b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-03c1072d-7a21-3917-8c97-56beba0ec360.json b/test/data/enm/study-FCSV-03c1072d-7a21-3917-8c97-56beba0ec360.json
new file mode 100644
index 0000000..b14e37c
--- /dev/null
+++ b/test/data/enm/study-FCSV-03c1072d-7a21-3917-8c97-56beba0ec360.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-03c1072d-7a21-3917-8c97-56beba0ec360",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":21\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":2\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":7\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":108\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":198\n}\n,\"P01009\":{\n\t\"loValue\":24\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":101\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":23\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":1\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":30\n}\n,\"P01857\":{\n\t\"loValue\":16\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":15\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":219\n}\n,\"P02649\":{\n\t\"loValue\":77\n}\n,\"P02652\":{\n\t\"loValue\":38\n}\n,\"P02654\":{\n\t\"loValue\":14\n}\n,\"P02655\":{\n\t\"loValue\":21\n}\n,\"P02656\":{\n\t\"loValue\":23\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":45\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":5\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":29\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":21\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":9\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":118\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":92\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":11\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":4\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":3\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":21\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":7\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":68\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":3\n}\n,\"P08697\":{\n\t\"loValue\":3\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":36\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":90\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":1\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":9\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":2\n}\n,\"P19827\":{\n\t\"loValue\":1\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":6\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":22\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":46\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":20\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":9\n}\n,\"P69905\":{\n\t\"loValue\":4\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":4\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":18\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":26\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":1\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":9\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":49\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":1\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-04172a41-9fea-36d9-8b5c-cf0bd3577d21.json b/test/data/enm/study-FCSV-04172a41-9fea-36d9-8b5c-cf0bd3577d21.json
new file mode 100644
index 0000000..5c263b3
--- /dev/null
+++ b/test/data/enm/study-FCSV-04172a41-9fea-36d9-8b5c-cf0bd3577d21.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-04172a41-9fea-36d9-8b5c-cf0bd3577d21",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":1\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":3\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":4\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":2\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":10\n}\n,\"P00739\":{\n\t\"loValue\":9\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":1\n}\n,\"P01008\":{\n\t\"loValue\":29\n}\n,\"P01009\":{\n\t\"loValue\":26\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":24\n}\n,\"P01024\":{\n\t\"loValue\":92\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":2\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":1\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":14\n}\n,\"P01834\":{\n\t\"loValue\":26\n}\n,\"P01857\":{\n\t\"loValue\":37\n}\n,\"P01859\":{\n\t\"loValue\":15\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":23\n}\n,\"P01876\":{\n\t\"loValue\":17\n}\n,\"P01877\":{\n\t\"loValue\":10\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":17\n}\n,\"P02647\":{\n\t\"loValue\":27\n}\n,\"P02649\":{\n\t\"loValue\":11\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":3\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":29\n}\n,\"P02788\":{\n\t\"loValue\":33\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":3\n}\n,\"P04004\":{\n\t\"loValue\":5\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":1\n}\n,\"P04114\":{\n\t\"loValue\":67\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":3\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":3\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":3\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":2\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":9\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":1\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":8\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":1\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":23\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":17\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":6\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":7\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":7\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":3\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":5\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":2\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":4\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":4\n}\n,\"P31151\":{\n\t\"loValue\":6\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":1\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":9\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":1\n}\n,\"P63104\":{\n\t\"loValue\":1\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":3\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":1\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":2\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":5\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":1\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":3\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":2\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":2\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":1\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":1\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":1\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-04386e9b-8b1f-3f64-9356-1947e3e22d87.json b/test/data/enm/study-FCSV-04386e9b-8b1f-3f64-9356-1947e3e22d87.json
new file mode 100644
index 0000000..fcb25ca
--- /dev/null
+++ b/test/data/enm/study-FCSV-04386e9b-8b1f-3f64-9356-1947e3e22d87.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-04386e9b-8b1f-3f64-9356-1947e3e22d87",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-methionine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0486a609-f271-3c87-9281-ad3650d3ee3f.json b/test/data/enm/study-FCSV-0486a609-f271-3c87-9281-ad3650d3ee3f.json
new file mode 100644
index 0000000..ab917a6
--- /dev/null
+++ b/test/data/enm/study-FCSV-0486a609-f271-3c87-9281-ad3650d3ee3f.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-0486a609-f271-3c87-9281-ad3650d3ee3f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 129.48,
+        "errQualifier": "sd",
+        "errorValue": 2.17
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 127.22,
+        "errQualifier": "sd",
+        "errorValue": 3.09
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 131.38,
+        "errQualifier": "sd",
+        "errorValue": 2.76
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 128.76,
+        "errQualifier": "sd",
+        "errorValue": 4.49
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 130.3,
+        "errQualifier": "sd",
+        "errorValue": 1.88
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 125.33,
+        "errQualifier": "sd",
+        "errorValue": 3.96
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 130.3,
+        "errQualifier": "sd",
+        "errorValue": 2.34
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 127.87,
+        "errQualifier": "sd",
+        "errorValue": 3.96
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0491b83a-ce88-3d70-818a-4b38413e4bc9.json b/test/data/enm/study-FCSV-0491b83a-ce88-3d70-818a-4b38413e4bc9.json
new file mode 100644
index 0000000..d3ac4ab
--- /dev/null
+++ b/test/data/enm/study-FCSV-0491b83a-ce88-3d70-818a-4b38413e4bc9.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-0491b83a-ce88-3d70-818a-4b38413e4bc9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.851,
+        "errQualifier": "sd",
+        "errorValue": 0.245
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-049496bb-a71e-3cfe-9348-cc2e3a5b0558.json b/test/data/enm/study-FCSV-049496bb-a71e-3cfe-9348-cc2e3a5b0558.json
new file mode 100644
index 0000000..91a90bd
--- /dev/null
+++ b/test/data/enm/study-FCSV-049496bb-a71e-3cfe-9348-cc2e3a5b0558.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-049496bb-a71e-3cfe-9348-cc2e3a5b0558",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 442.584,
+        "errQualifier": "sd",
+        "errorValue": 2.509
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.036
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-04dfaaa3-2294-3e1b-9c2e-5518c2c1c33f.json b/test/data/enm/study-FCSV-04dfaaa3-2294-3e1b-9c2e-5518c2c1c33f.json
new file mode 100644
index 0000000..d143a57
--- /dev/null
+++ b/test/data/enm/study-FCSV-04dfaaa3-2294-3e1b-9c2e-5518c2c1c33f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-04dfaaa3-2294-3e1b-9c2e-5518c2c1c33f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.207,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.265,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.07,
+        "errQualifier": "sd",
+        "errorValue": 0.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-04e4cda5-2b3a-3e2b-909e-abe55a5b9026.json b/test/data/enm/study-FCSV-04e4cda5-2b3a-3e2b-909e-abe55a5b9026.json
new file mode 100644
index 0000000..bab5c88
--- /dev/null
+++ b/test/data/enm/study-FCSV-04e4cda5-2b3a-3e2b-909e-abe55a5b9026.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-04e4cda5-2b3a-3e2b-909e-abe55a5b9026",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 73.06,
+        "errQualifier": "sd",
+        "errorValue": 3.64
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 105.01,
+        "errQualifier": "sd",
+        "errorValue": 2.36
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.23,
+        "errQualifier": "sd",
+        "errorValue": 2.92
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 105.73,
+        "errQualifier": "sd",
+        "errorValue": 5.56
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 77.85,
+        "errQualifier": "sd",
+        "errorValue": 2.88
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 98.17,
+        "errQualifier": "sd",
+        "errorValue": 4.35
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 77.85,
+        "errQualifier": "sd",
+        "errorValue": 3.22
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 109.21,
+        "errQualifier": "sd",
+        "errorValue": 4.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-054d690b-4286-3a99-b734-9b92c3b5661d.json b/test/data/enm/study-FCSV-054d690b-4286-3a99-b734-9b92c3b5661d.json
new file mode 100644
index 0000000..d98fd93
--- /dev/null
+++ b/test/data/enm/study-FCSV-054d690b-4286-3a99-b734-9b92c3b5661d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-054d690b-4286-3a99-b734-9b92c3b5661d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-05add2f1-d50b-3583-bb2c-411c571b32ad.json b/test/data/enm/study-FCSV-05add2f1-d50b-3583-bb2c-411c571b32ad.json
new file mode 100644
index 0000000..b5ccd8c
--- /dev/null
+++ b/test/data/enm/study-FCSV-05add2f1-d50b-3583-bb2c-411c571b32ad.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-05add2f1-d50b-3583-bb2c-411c571b32ad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -27.78,
+        "errQualifier": "sd",
+        "errorValue": 2.71
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.65,
+        "errQualifier": "sd",
+        "errorValue": 3.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-06605501-15bf-3f2c-a8d8-1d86b4aeada2.json b/test/data/enm/study-FCSV-06605501-15bf-3f2c-a8d8-1d86b4aeada2.json
new file mode 100644
index 0000000..8191ede
--- /dev/null
+++ b/test/data/enm/study-FCSV-06605501-15bf-3f2c-a8d8-1d86b4aeada2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-06605501-15bf-3f2c-a8d8-1d86b4aeada2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.019,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.736,
+        "errQualifier": "std",
+        "errorValue": 0.795
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-066368b1-5565-38bc-ae30-9f27711ccb80.json b/test/data/enm/study-FCSV-066368b1-5565-38bc-ae30-9f27711ccb80.json
new file mode 100644
index 0000000..83ff2ec
--- /dev/null
+++ b/test/data/enm/study-FCSV-066368b1-5565-38bc-ae30-9f27711ccb80.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-066368b1-5565-38bc-ae30-9f27711ccb80",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-06ab6610-bb14-3776-ae45-b9c87545f54f.json b/test/data/enm/study-FCSV-06ab6610-bb14-3776-ae45-b9c87545f54f.json
new file mode 100644
index 0000000..3b1bd35
--- /dev/null
+++ b/test/data/enm/study-FCSV-06ab6610-bb14-3776-ae45-b9c87545f54f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-06ab6610-bb14-3776-ae45-b9c87545f54f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.332,
+        "errQualifier": "sd",
+        "errorValue": 0.253
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-06b6bc1a-68b0-307f-b508-f68bc64c4e52.json b/test/data/enm/study-FCSV-06b6bc1a-68b0-307f-b508-f68bc64c4e52.json
new file mode 100644
index 0000000..aafb273
--- /dev/null
+++ b/test/data/enm/study-FCSV-06b6bc1a-68b0-307f-b508-f68bc64c4e52.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-06b6bc1a-68b0-307f-b508-f68bc64c4e52",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.023,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.42,
+        "errQualifier": "std",
+        "errorValue": 0.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-06facf9c-8b22-31c6-9c4a-163295dd24fe.json b/test/data/enm/study-FCSV-06facf9c-8b22-31c6-9c4a-163295dd24fe.json
new file mode 100644
index 0000000..62f898a
--- /dev/null
+++ b/test/data/enm/study-FCSV-06facf9c-8b22-31c6-9c4a-163295dd24fe.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-06facf9c-8b22-31c6-9c4a-163295dd24fe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -23.58,
+        "errQualifier": "sd",
+        "errorValue": 2.05
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.03,
+        "errQualifier": "sd",
+        "errorValue": 1.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0712e45a-e412-34fd-8d36-4ef82963b9d7.json b/test/data/enm/study-FCSV-0712e45a-e412-34fd-8d36-4ef82963b9d7.json
new file mode 100644
index 0000000..2d1a38f
--- /dev/null
+++ b/test/data/enm/study-FCSV-0712e45a-e412-34fd-8d36-4ef82963b9d7.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0712e45a-e412-34fd-8d36-4ef82963b9d7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.046,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.431,
+        "errQualifier": "std",
+        "errorValue": 0.506
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0729bece-9da2-3119-b1a8-f64ca8b17ad6.json b/test/data/enm/study-FCSV-0729bece-9da2-3119-b1a8-f64ca8b17ad6.json
new file mode 100644
index 0000000..c5f2a40
--- /dev/null
+++ b/test/data/enm/study-FCSV-0729bece-9da2-3119-b1a8-f64ca8b17ad6.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-0729bece-9da2-3119-b1a8-f64ca8b17ad6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":5\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":3\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":1\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":1\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":1\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":1\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":1\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":1\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":13\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":22\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":27\n}\n,\"P00739\":{\n\t\"loValue\":21\n}\n,\"P00740\":{\n\t\"loValue\":4\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":14\n}\n,\"P01009\":{\n\t\"loValue\":64\n}\n,\"P01011\":{\n\t\"loValue\":6\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":82\n}\n,\"P01024\":{\n\t\"loValue\":78\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":12\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":40\n}\n,\"P01857\":{\n\t\"loValue\":49\n}\n,\"P01859\":{\n\t\"loValue\":23\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":6\n}\n,\"P01871\":{\n\t\"loValue\":23\n}\n,\"P01876\":{\n\t\"loValue\":27\n}\n,\"P01877\":{\n\t\"loValue\":7\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":25\n}\n,\"P02649\":{\n\t\"loValue\":8\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":4\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":1\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":3\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":16\n}\n,\"P02763\":{\n\t\"loValue\":10\n}\n,\"P02765\":{\n\t\"loValue\":4\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":13\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":63\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":4\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":7\n}\n,\"P04004\":{\n\t\"loValue\":237\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":14\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":11\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":12\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":3\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":3\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":9\n}\n,\"P05155\":{\n\t\"loValue\":15\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":1\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":4\n}\n,\"P08697\":{\n\t\"loValue\":48\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":34\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":11\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":15\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":2\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":5\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":3\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":52\n}\n,\"P19827\":{\n\t\"loValue\":58\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":3\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":2\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":2\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":1\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":6\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":1\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":2\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":2\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":11\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":3\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":11\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":191\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":2\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":1\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":2\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":1\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":2\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":1\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":2\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":1\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-079c4f57-edef-3197-b838-566877e5aa71.json b/test/data/enm/study-FCSV-079c4f57-edef-3197-b838-566877e5aa71.json
new file mode 100644
index 0000000..7fb751d
--- /dev/null
+++ b/test/data/enm/study-FCSV-079c4f57-edef-3197-b838-566877e5aa71.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-079c4f57-edef-3197-b838-566877e5aa71",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.012,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.356,
+        "errQualifier": "std",
+        "errorValue": 0.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-07d5cc09-b629-3107-a01e-8df8bda05362.json b/test/data/enm/study-FCSV-07d5cc09-b629-3107-a01e-8df8bda05362.json
new file mode 100644
index 0000000..35524c9
--- /dev/null
+++ b/test/data/enm/study-FCSV-07d5cc09-b629-3107-a01e-8df8bda05362.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-07d5cc09-b629-3107-a01e-8df8bda05362",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 224.728,
+        "errQualifier": "sd",
+        "errorValue": 23.17
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-08094529-fb71-36b3-a27b-6d5063dec574.json b/test/data/enm/study-FCSV-08094529-fb71-36b3-a27b-6d5063dec574.json
new file mode 100644
index 0000000..6499290
--- /dev/null
+++ b/test/data/enm/study-FCSV-08094529-fb71-36b3-a27b-6d5063dec574.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-08094529-fb71-36b3-a27b-6d5063dec574",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "N-(2-Mercaptopropionyl)glycine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0853f2ba-bde2-3bea-8058-2a37ba96e530.json b/test/data/enm/study-FCSV-0853f2ba-bde2-3bea-8058-2a37ba96e530.json
new file mode 100644
index 0000000..362f434
--- /dev/null
+++ b/test/data/enm/study-FCSV-0853f2ba-bde2-3bea-8058-2a37ba96e530.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-0853f2ba-bde2-3bea-8058-2a37ba96e530",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-08812ca8-fd9a-328b-974b-0ca0452a1194.json b/test/data/enm/study-FCSV-08812ca8-fd9a-328b-974b-0ca0452a1194.json
new file mode 100644
index 0000000..05cea9e
--- /dev/null
+++ b/test/data/enm/study-FCSV-08812ca8-fd9a-328b-974b-0ca0452a1194.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-08812ca8-fd9a-328b-974b-0ca0452a1194",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.465,
+        "errQualifier": "sd",
+        "errorValue": 0.17
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.36,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 550.6,
+        "errQualifier": "sd",
+        "errorValue": 21.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-088a2360-b820-3586-a181-74aba9a72419.json b/test/data/enm/study-FCSV-088a2360-b820-3586-a181-74aba9a72419.json
new file mode 100644
index 0000000..2b0b360
--- /dev/null
+++ b/test/data/enm/study-FCSV-088a2360-b820-3586-a181-74aba9a72419.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-088a2360-b820-3586-a181-74aba9a72419",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-088a789f-a5ed-3fb7-a867-e4cbc5b133a3.json b/test/data/enm/study-FCSV-088a789f-a5ed-3fb7-a867-e4cbc5b133a3.json
new file mode 100644
index 0000000..b63b776
--- /dev/null
+++ b/test/data/enm/study-FCSV-088a789f-a5ed-3fb7-a867-e4cbc5b133a3.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-088a789f-a5ed-3fb7-a867-e4cbc5b133a3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 710.334,
+        "errQualifier": "sd",
+        "errorValue": 418.281
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 7,
+        "errQualifier": "sd",
+        "errorValue": 4
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.154
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-089fd58b-4acc-3739-8fed-a0bda28263ae.json b/test/data/enm/study-FCSV-089fd58b-4acc-3739-8fed-a0bda28263ae.json
new file mode 100644
index 0000000..dc02404
--- /dev/null
+++ b/test/data/enm/study-FCSV-089fd58b-4acc-3739-8fed-a0bda28263ae.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-089fd58b-4acc-3739-8fed-a0bda28263ae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0905012d-b952-3128-a267-bc0d2e6af782.json b/test/data/enm/study-FCSV-0905012d-b952-3128-a267-bc0d2e6af782.json
new file mode 100644
index 0000000..247d8a5
--- /dev/null
+++ b/test/data/enm/study-FCSV-0905012d-b952-3128-a267-bc0d2e6af782.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-0905012d-b952-3128-a267-bc0d2e6af782",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-092d11f8-4704-3a20-9a10-fd8c34dcb01d.json b/test/data/enm/study-FCSV-092d11f8-4704-3a20-9a10-fd8c34dcb01d.json
new file mode 100644
index 0000000..b08a967
--- /dev/null
+++ b/test/data/enm/study-FCSV-092d11f8-4704-3a20-9a10-fd8c34dcb01d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-092d11f8-4704-3a20-9a10-fd8c34dcb01d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-09481045-6415-3fe4-865f-ee1aaef04fc8.json b/test/data/enm/study-FCSV-09481045-6415-3fe4-865f-ee1aaef04fc8.json
new file mode 100644
index 0000000..063c351
--- /dev/null
+++ b/test/data/enm/study-FCSV-09481045-6415-3fe4-865f-ee1aaef04fc8.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-09481045-6415-3fe4-865f-ee1aaef04fc8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.008,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.965,
+        "errQualifier": "std",
+        "errorValue": 0.763
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-095a2402-ed58-355e-8cf0-5706cd50104d.json b/test/data/enm/study-FCSV-095a2402-ed58-355e-8cf0-5706cd50104d.json
new file mode 100644
index 0000000..7a4bb30
--- /dev/null
+++ b/test/data/enm/study-FCSV-095a2402-ed58-355e-8cf0-5706cd50104d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-095a2402-ed58-355e-8cf0-5706cd50104d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.06,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.067,
+        "errQualifier": "std",
+        "errorValue": 0.168
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0980ee42-19c7-3dc5-91d0-4243460c8f18.json b/test/data/enm/study-FCSV-0980ee42-19c7-3dc5-91d0-4243460c8f18.json
new file mode 100644
index 0000000..733d7d2
--- /dev/null
+++ b/test/data/enm/study-FCSV-0980ee42-19c7-3dc5-91d0-4243460c8f18.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-0980ee42-19c7-3dc5-91d0-4243460c8f18",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.58,
+        "errQualifier": "sd",
+        "errorValue": 0.56
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 61.43,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.07,
+        "errQualifier": "sd",
+        "errorValue": 2.72
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.48,
+        "errQualifier": "sd",
+        "errorValue": 1.34
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 49.23,
+        "errQualifier": "sd",
+        "errorValue": 3.69
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18.1,
+        "errQualifier": "sd",
+        "errorValue": 1.47
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 49.23,
+        "errQualifier": "sd",
+        "errorValue": 2.02
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73.47,
+        "errQualifier": "sd",
+        "errorValue": 7.73
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-098da3b7-51a2-3adf-9cc1-0f18b15553c5.json b/test/data/enm/study-FCSV-098da3b7-51a2-3adf-9cc1-0f18b15553c5.json
new file mode 100644
index 0000000..dc17a3d
--- /dev/null
+++ b/test/data/enm/study-FCSV-098da3b7-51a2-3adf-9cc1-0f18b15553c5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-098da3b7-51a2-3adf-9cc1-0f18b15553c5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-09caf2b1-29e1-3f69-8d68-3ccbd640cf35.json b/test/data/enm/study-FCSV-09caf2b1-29e1-3f69-8d68-3ccbd640cf35.json
new file mode 100644
index 0000000..a652b14
--- /dev/null
+++ b/test/data/enm/study-FCSV-09caf2b1-29e1-3f69-8d68-3ccbd640cf35.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "FCSV-09caf2b1-29e1-3f69-8d68-3ccbd640cf35",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.078
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0a443119-bd16-38d0-9b1e-515ab06d8513.json b/test/data/enm/study-FCSV-0a443119-bd16-38d0-9b1e-515ab06d8513.json
new file mode 100644
index 0000000..30b09d4
--- /dev/null
+++ b/test/data/enm/study-FCSV-0a443119-bd16-38d0-9b1e-515ab06d8513.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0a443119-bd16-38d0-9b1e-515ab06d8513",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 208.318,
+        "errQualifier": "sd",
+        "errorValue": 22.354
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0a801292-742e-33a6-8afd-443149d7397d.json b/test/data/enm/study-FCSV-0a801292-742e-33a6-8afd-443149d7397d.json
new file mode 100644
index 0000000..4684b34
--- /dev/null
+++ b/test/data/enm/study-FCSV-0a801292-742e-33a6-8afd-443149d7397d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0a801292-742e-33a6-8afd-443149d7397d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.004,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.887,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0aa39fb6-268c-3e08-9b5b-dbd66fb4086d.json b/test/data/enm/study-FCSV-0aa39fb6-268c-3e08-9b5b-dbd66fb4086d.json
new file mode 100644
index 0000000..c166a44
--- /dev/null
+++ b/test/data/enm/study-FCSV-0aa39fb6-268c-3e08-9b5b-dbd66fb4086d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-0aa39fb6-268c-3e08-9b5b-dbd66fb4086d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.144,
+        "errQualifier": "sd",
+        "errorValue": 0.204
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0aa6b29b-aa17-35b8-8b13-b922b4480a2b.json b/test/data/enm/study-FCSV-0aa6b29b-aa17-35b8-8b13-b922b4480a2b.json
new file mode 100644
index 0000000..e677993
--- /dev/null
+++ b/test/data/enm/study-FCSV-0aa6b29b-aa17-35b8-8b13-b922b4480a2b.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0aa6b29b-aa17-35b8-8b13-b922b4480a2b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 266.113,
+        "errQualifier": "sd",
+        "errorValue": 7.691
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.023
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0aae2065-25a6-340b-83d5-d19170542b01.json b/test/data/enm/study-FCSV-0aae2065-25a6-340b-83d5-d19170542b01.json
new file mode 100644
index 0000000..f9a350e
--- /dev/null
+++ b/test/data/enm/study-FCSV-0aae2065-25a6-340b-83d5-d19170542b01.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-0aae2065-25a6-340b-83d5-d19170542b01",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Mercaptoacetic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0b439f6f-2276-333c-bb89-a4a38b73ae24.json b/test/data/enm/study-FCSV-0b439f6f-2276-333c-bb89-a4a38b73ae24.json
new file mode 100644
index 0000000..1f44389
--- /dev/null
+++ b/test/data/enm/study-FCSV-0b439f6f-2276-333c-bb89-a4a38b73ae24.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0b439f6f-2276-333c-bb89-a4a38b73ae24",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 440.653,
+        "errQualifier": "sd",
+        "errorValue": 5.239
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.041
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0b72a33f-e101-37c6-a3fc-f6d20ca8a2ce.json b/test/data/enm/study-FCSV-0b72a33f-e101-37c6-a3fc-f6d20ca8a2ce.json
new file mode 100644
index 0000000..9ca6c5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-0b72a33f-e101-37c6-a3fc-f6d20ca8a2ce.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-0b72a33f-e101-37c6-a3fc-f6d20ca8a2ce",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 114.39,
+        "errQualifier": "sd",
+        "errorValue": 9.92
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 110.75,
+        "errQualifier": "sd",
+        "errorValue": 5.41
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 176.86,
+        "errQualifier": "sd",
+        "errorValue": 108.92
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 372.23,
+        "errQualifier": "sd",
+        "errorValue": 460.88
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 130.74,
+        "errQualifier": "sd",
+        "errorValue": 12.68
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 97.67,
+        "errQualifier": "sd",
+        "errorValue": 6.3
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 130.74,
+        "errQualifier": "sd",
+        "errorValue": 18.85
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 125.71,
+        "errQualifier": "sd",
+        "errorValue": 23.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0b8cb05d-a9fd-31d4-bb9c-0675ade8206f.json b/test/data/enm/study-FCSV-0b8cb05d-a9fd-31d4-bb9c-0675ade8206f.json
new file mode 100644
index 0000000..d346c04
--- /dev/null
+++ b/test/data/enm/study-FCSV-0b8cb05d-a9fd-31d4-bb9c-0675ade8206f.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0b8cb05d-a9fd-31d4-bb9c-0675ade8206f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 739.065,
+        "errQualifier": "sd",
+        "errorValue": 22.825
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.002
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0b9e9de8-59ef-3093-bbe9-1f5392e3ce9a.json b/test/data/enm/study-FCSV-0b9e9de8-59ef-3093-bbe9-1f5392e3ce9a.json
new file mode 100644
index 0000000..097c839
--- /dev/null
+++ b/test/data/enm/study-FCSV-0b9e9de8-59ef-3093-bbe9-1f5392e3ce9a.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0b9e9de8-59ef-3093-bbe9-1f5392e3ce9a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 247.743,
+        "errQualifier": "sd",
+        "errorValue": 1.257
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0bae6816-b58d-3a7f-b4bf-fca8cb86a6b5.json b/test/data/enm/study-FCSV-0bae6816-b58d-3a7f-b4bf-fca8cb86a6b5.json
new file mode 100644
index 0000000..b1c4d42
--- /dev/null
+++ b/test/data/enm/study-FCSV-0bae6816-b58d-3a7f-b4bf-fca8cb86a6b5.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-0bae6816-b58d-3a7f-b4bf-fca8cb86a6b5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.267,
+        "errQualifier": "sd",
+        "errorValue": 0.042
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.278,
+        "errQualifier": "sd",
+        "errorValue": 0.063
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.73,
+        "errQualifier": "sd",
+        "errorValue": 0.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0bb09e83-cc7a-3b95-85ca-63615e079776.json b/test/data/enm/study-FCSV-0bb09e83-cc7a-3b95-85ca-63615e079776.json
new file mode 100644
index 0000000..262b082
--- /dev/null
+++ b/test/data/enm/study-FCSV-0bb09e83-cc7a-3b95-85ca-63615e079776.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0bb09e83-cc7a-3b95-85ca-63615e079776",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 637.528,
+        "errQualifier": "sd",
+        "errorValue": 19.79
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0bd3f45d-9fec-3632-ab89-039d252e53b3.json b/test/data/enm/study-FCSV-0bd3f45d-9fec-3632-ab89-039d252e53b3.json
new file mode 100644
index 0000000..abe5bff
--- /dev/null
+++ b/test/data/enm/study-FCSV-0bd3f45d-9fec-3632-ab89-039d252e53b3.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-0bd3f45d-9fec-3632-ab89-039d252e53b3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0c4b4c26-e2ee-387b-9786-b2c911d43ba6.json b/test/data/enm/study-FCSV-0c4b4c26-e2ee-387b-9786-b2c911d43ba6.json
new file mode 100644
index 0000000..925f290
--- /dev/null
+++ b/test/data/enm/study-FCSV-0c4b4c26-e2ee-387b-9786-b2c911d43ba6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0c4b4c26-e2ee-387b-9786-b2c911d43ba6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.34,
+        "errQualifier": "sd",
+        "errorValue": 0.071
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.267,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0c5d6106-834b-369e-af18-3e32f38a75f9.json b/test/data/enm/study-FCSV-0c5d6106-834b-369e-af18-3e32f38a75f9.json
new file mode 100644
index 0000000..fd7588a
--- /dev/null
+++ b/test/data/enm/study-FCSV-0c5d6106-834b-369e-af18-3e32f38a75f9.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0c5d6106-834b-369e-af18-3e32f38a75f9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 976.148,
+        "errQualifier": "sd",
+        "errorValue": 54.364
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0c945a33-c8aa-3d6e-9261-7e5fd8cc9e0b.json b/test/data/enm/study-FCSV-0c945a33-c8aa-3d6e-9261-7e5fd8cc9e0b.json
new file mode 100644
index 0000000..d9a0e90
--- /dev/null
+++ b/test/data/enm/study-FCSV-0c945a33-c8aa-3d6e-9261-7e5fd8cc9e0b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0c945a33-c8aa-3d6e-9261-7e5fd8cc9e0b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.004,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.858,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0cbcf19b-4f45-337c-af43-21b44bd8a622.json b/test/data/enm/study-FCSV-0cbcf19b-4f45-337c-af43-21b44bd8a622.json
new file mode 100644
index 0000000..e367602
--- /dev/null
+++ b/test/data/enm/study-FCSV-0cbcf19b-4f45-337c-af43-21b44bd8a622.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-0cbcf19b-4f45-337c-af43-21b44bd8a622",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0ce0523f-8e2a-3347-ad5b-222d952fc713.json b/test/data/enm/study-FCSV-0ce0523f-8e2a-3347-ad5b-222d952fc713.json
new file mode 100644
index 0000000..20513b8
--- /dev/null
+++ b/test/data/enm/study-FCSV-0ce0523f-8e2a-3347-ad5b-222d952fc713.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-0ce0523f-8e2a-3347-ad5b-222d952fc713",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.913,
+        "errQualifier": "sd",
+        "errorValue": 0.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0cf37dce-7276-32f5-8e09-efa63fee09f6.json b/test/data/enm/study-FCSV-0cf37dce-7276-32f5-8e09-efa63fee09f6.json
new file mode 100644
index 0000000..3734767
--- /dev/null
+++ b/test/data/enm/study-FCSV-0cf37dce-7276-32f5-8e09-efa63fee09f6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0cf37dce-7276-32f5-8e09-efa63fee09f6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.148,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.753,
+        "errQualifier": "std",
+        "errorValue": 0.169
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0d864215-cd43-3b26-9b0f-1f72a1fb45f1.json b/test/data/enm/study-FCSV-0d864215-cd43-3b26-9b0f-1f72a1fb45f1.json
new file mode 100644
index 0000000..1081b3c
--- /dev/null
+++ b/test/data/enm/study-FCSV-0d864215-cd43-3b26-9b0f-1f72a1fb45f1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-0d864215-cd43-3b26-9b0f-1f72a1fb45f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -41.68,
+        "errQualifier": "sd",
+        "errorValue": 6.68
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.52,
+        "errQualifier": "sd",
+        "errorValue": 1.74
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0dce67ea-3a84-3848-8a36-b33db2d30c42.json b/test/data/enm/study-FCSV-0dce67ea-3a84-3848-8a36-b33db2d30c42.json
new file mode 100644
index 0000000..5d28a36
--- /dev/null
+++ b/test/data/enm/study-FCSV-0dce67ea-3a84-3848-8a36-b33db2d30c42.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-0dce67ea-3a84-3848-8a36-b33db2d30c42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0e231761-2749-3416-ad8a-6982e4f0bb8c.json b/test/data/enm/study-FCSV-0e231761-2749-3416-ad8a-6982e4f0bb8c.json
new file mode 100644
index 0000000..322491b
--- /dev/null
+++ b/test/data/enm/study-FCSV-0e231761-2749-3416-ad8a-6982e4f0bb8c.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0e231761-2749-3416-ad8a-6982e4f0bb8c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 438.801,
+        "errQualifier": "sd",
+        "errorValue": 5.24
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.042
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0e66fbda-6570-339b-b23a-68dacd14baa7.json b/test/data/enm/study-FCSV-0e66fbda-6570-339b-b23a-68dacd14baa7.json
new file mode 100644
index 0000000..ee2da0e
--- /dev/null
+++ b/test/data/enm/study-FCSV-0e66fbda-6570-339b-b23a-68dacd14baa7.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-0e66fbda-6570-339b-b23a-68dacd14baa7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.267,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.311,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 541.97,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0e8e694c-efce-32b2-9631-7e8f52de2cc3.json b/test/data/enm/study-FCSV-0e8e694c-efce-32b2-9631-7e8f52de2cc3.json
new file mode 100644
index 0000000..ef3caf4
--- /dev/null
+++ b/test/data/enm/study-FCSV-0e8e694c-efce-32b2-9631-7e8f52de2cc3.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-0e8e694c-efce-32b2-9631-7e8f52de2cc3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.126,
+        "errQualifier": "sd",
+        "errorValue": 1.172
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0ec3b4e0-bba3-3e17-aeb7-37d4432ca982.json b/test/data/enm/study-FCSV-0ec3b4e0-bba3-3e17-aeb7-37d4432ca982.json
new file mode 100644
index 0000000..fcd145f
--- /dev/null
+++ b/test/data/enm/study-FCSV-0ec3b4e0-bba3-3e17-aeb7-37d4432ca982.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-0ec3b4e0-bba3-3e17-aeb7-37d4432ca982",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 252.88,
+        "errQualifier": "sd",
+        "errorValue": 268.82
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 61.79,
+        "errQualifier": "sd",
+        "errorValue": 12.14
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 379.63,
+        "errQualifier": "sd",
+        "errorValue": 370.51
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 181.76,
+        "errQualifier": "sd",
+        "errorValue": 192.79
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 321.41,
+        "errQualifier": "sd",
+        "errorValue": 118.08
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.61,
+        "errQualifier": "sd",
+        "errorValue": 8.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 321.41,
+        "errQualifier": "sd",
+        "errorValue": 335.73
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.24,
+        "errQualifier": "sd",
+        "errorValue": 6.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0f4aff5a-e659-3a82-8b57-570ff7f562f4.json b/test/data/enm/study-FCSV-0f4aff5a-e659-3a82-8b57-570ff7f562f4.json
new file mode 100644
index 0000000..9f8e2ce
--- /dev/null
+++ b/test/data/enm/study-FCSV-0f4aff5a-e659-3a82-8b57-570ff7f562f4.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0f4aff5a-e659-3a82-8b57-570ff7f562f4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 426.751,
+        "errQualifier": "sd",
+        "errorValue": 11.8
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0f716b3b-b1e4-3ff4-8fa6-737435a7b678.json b/test/data/enm/study-FCSV-0f716b3b-b1e4-3ff4-8fa6-737435a7b678.json
new file mode 100644
index 0000000..69fde20
--- /dev/null
+++ b/test/data/enm/study-FCSV-0f716b3b-b1e4-3ff4-8fa6-737435a7b678.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-0f716b3b-b1e4-3ff4-8fa6-737435a7b678",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 1.081,
+        "errQualifier": "sd",
+        "errorValue": 0.403
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.113,
+        "errQualifier": "std",
+        "errorValue": 0.537
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0fe8172e-785c-35c4-ae4d-4372c5218024.json b/test/data/enm/study-FCSV-0fe8172e-785c-35c4-ae4d-4372c5218024.json
new file mode 100644
index 0000000..306df45
--- /dev/null
+++ b/test/data/enm/study-FCSV-0fe8172e-785c-35c4-ae4d-4372c5218024.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-0fe8172e-785c-35c4-ae4d-4372c5218024",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 255.557,
+        "errQualifier": "sd",
+        "errorValue": 0.105
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-100207f0-3500-395a-82e5-87bdac87e63c.json b/test/data/enm/study-FCSV-100207f0-3500-395a-82e5-87bdac87e63c.json
new file mode 100644
index 0000000..addfd41
--- /dev/null
+++ b/test/data/enm/study-FCSV-100207f0-3500-395a-82e5-87bdac87e63c.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-100207f0-3500-395a-82e5-87bdac87e63c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 36.85,
+        "errQualifier": "sd",
+        "errorValue": 0.28
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 52.96,
+        "errQualifier": "sd",
+        "errorValue": 3.22
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 220.5,
+        "errQualifier": "sd",
+        "errorValue": 252.07
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 153,
+        "errQualifier": "sd",
+        "errorValue": 134.73
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.06,
+        "errQualifier": "sd",
+        "errorValue": 1.63
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.38,
+        "errQualifier": "sd",
+        "errorValue": 2.1
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.06,
+        "errQualifier": "sd",
+        "errorValue": 91.92
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 86.22,
+        "errQualifier": "sd",
+        "errorValue": 30.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1003bd7a-fb1b-3903-890d-02dd262e9c0d.json b/test/data/enm/study-FCSV-1003bd7a-fb1b-3903-890d-02dd262e9c0d.json
new file mode 100644
index 0000000..e3f16d9
--- /dev/null
+++ b/test/data/enm/study-FCSV-1003bd7a-fb1b-3903-890d-02dd262e9c0d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1003bd7a-fb1b-3903-890d-02dd262e9c0d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.64,
+        "errQualifier": "sd",
+        "errorValue": 0.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10199acf-e30a-391c-8a60-500fa69f5e89.json b/test/data/enm/study-FCSV-10199acf-e30a-391c-8a60-500fa69f5e89.json
new file mode 100644
index 0000000..22ac3ce
--- /dev/null
+++ b/test/data/enm/study-FCSV-10199acf-e30a-391c-8a60-500fa69f5e89.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-10199acf-e30a-391c-8a60-500fa69f5e89",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":147\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":396\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":9\n}\n,\"P01024\":{\n\t\"loValue\":99\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":2\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":4\n}\n,\"P01857\":{\n\t\"loValue\":5\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":4\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":45\n}\n,\"P02649\":{\n\t\"loValue\":170\n}\n,\"P02652\":{\n\t\"loValue\":21\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":2\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":5\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":88\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":31\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":61\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":10\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":18\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":6\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":19\n}\n,\"P08697\":{\n\t\"loValue\":10\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":9\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":14\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":3\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":3\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":14\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":15\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":5\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":2\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":12\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":2\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":5\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10341973-b4ae-325d-83b3-e0f2ccf4b1c6.json b/test/data/enm/study-FCSV-10341973-b4ae-325d-83b3-e0f2ccf4b1c6.json
new file mode 100644
index 0000000..2e5eec4
--- /dev/null
+++ b/test/data/enm/study-FCSV-10341973-b4ae-325d-83b3-e0f2ccf4b1c6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-10341973-b4ae-325d-83b3-e0f2ccf4b1c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10542832-b372-3663-967b-64ab6fd4f59e.json b/test/data/enm/study-FCSV-10542832-b372-3663-967b-64ab6fd4f59e.json
new file mode 100644
index 0000000..bd2fcf1
--- /dev/null
+++ b/test/data/enm/study-FCSV-10542832-b372-3663-967b-64ab6fd4f59e.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-10542832-b372-3663-967b-64ab6fd4f59e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.31,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.367,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.43,
+        "errQualifier": "sd",
+        "errorValue": 0.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-107a45ba-60ed-321c-8604-e2018acbf0e9.json b/test/data/enm/study-FCSV-107a45ba-60ed-321c-8604-e2018acbf0e9.json
new file mode 100644
index 0000000..789bfa1
--- /dev/null
+++ b/test/data/enm/study-FCSV-107a45ba-60ed-321c-8604-e2018acbf0e9.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-107a45ba-60ed-321c-8604-e2018acbf0e9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.9,
+        "errQualifier": "sd",
+        "errorValue": 0.8
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.64,
+        "errQualifier": "sd",
+        "errorValue": 1.64
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.23,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.61,
+        "errQualifier": "sd",
+        "errorValue": 2.22
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.21,
+        "errQualifier": "sd",
+        "errorValue": 0.6
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.84,
+        "errQualifier": "sd",
+        "errorValue": 2.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.21,
+        "errQualifier": "sd",
+        "errorValue": 0.67
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.85,
+        "errQualifier": "sd",
+        "errorValue": 2.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-108b37af-f1d9-33d1-a4c2-ffdb6c38aa40.json b/test/data/enm/study-FCSV-108b37af-f1d9-33d1-a4c2-ffdb6c38aa40.json
new file mode 100644
index 0000000..4f8f87c
--- /dev/null
+++ b/test/data/enm/study-FCSV-108b37af-f1d9-33d1-a4c2-ffdb6c38aa40.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-108b37af-f1d9-33d1-a4c2-ffdb6c38aa40",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":3\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":2\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":205\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":3\n}\n,\"P00747\":{\n\t\"loValue\":1\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":372\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":30\n}\n,\"P01024\":{\n\t\"loValue\":121\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":205\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":2\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":21\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":9\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":5\n}\n,\"P01876\":{\n\t\"loValue\":11\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":12\n}\n,\"P02649\":{\n\t\"loValue\":19\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":75\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":3\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":41\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":7\n}\n,\"P03951\":{\n\t\"loValue\":169\n}\n,\"P03952\":{\n\t\"loValue\":43\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":136\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":2\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":139\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":61\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":8\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":16\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":18\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":1\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":21\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":127\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":1\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":3\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":9\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":10\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":6\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":5\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":8\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":1\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":3\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":14\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":4\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":3\n}\n,\"Q14624\":{\n\t\"loValue\":29\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":2\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":1\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":57\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":1\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":4\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":1\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":2\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10ccff7a-7f93-3ccc-b288-b2ddf5cfed42.json b/test/data/enm/study-FCSV-10ccff7a-7f93-3ccc-b288-b2ddf5cfed42.json
new file mode 100644
index 0000000..5be04ca
--- /dev/null
+++ b/test/data/enm/study-FCSV-10ccff7a-7f93-3ccc-b288-b2ddf5cfed42.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-10ccff7a-7f93-3ccc-b288-b2ddf5cfed42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Poly(vinyl alcohol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10e0a115-5215-3a03-bf83-d2a76090c76e.json b/test/data/enm/study-FCSV-10e0a115-5215-3a03-bf83-d2a76090c76e.json
new file mode 100644
index 0000000..9bb9494
--- /dev/null
+++ b/test/data/enm/study-FCSV-10e0a115-5215-3a03-bf83-d2a76090c76e.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-10e0a115-5215-3a03-bf83-d2a76090c76e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 688.318,
+        "errQualifier": "sd",
+        "errorValue": 52.278
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-10ecce98-5d9a-33f4-b0ff-52e746fc2d6e.json b/test/data/enm/study-FCSV-10ecce98-5d9a-33f4-b0ff-52e746fc2d6e.json
new file mode 100644
index 0000000..335b2a3
--- /dev/null
+++ b/test/data/enm/study-FCSV-10ecce98-5d9a-33f4-b0ff-52e746fc2d6e.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-10ecce98-5d9a-33f4-b0ff-52e746fc2d6e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.239,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.257,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 539.73,
+        "errQualifier": "sd",
+        "errorValue": 0.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-11164ee9-05f6-3772-9352-aa6467832648.json b/test/data/enm/study-FCSV-11164ee9-05f6-3772-9352-aa6467832648.json
new file mode 100644
index 0000000..f05eb65
--- /dev/null
+++ b/test/data/enm/study-FCSV-11164ee9-05f6-3772-9352-aa6467832648.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-11164ee9-05f6-3772-9352-aa6467832648",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":20\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":2\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":12\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":1\n}\n,\"P00734\":{\n\t\"loValue\":57\n}\n,\"P00736\":{\n\t\"loValue\":6\n}\n,\"P00738\":{\n\t\"loValue\":2\n}\n,\"P00739\":{\n\t\"loValue\":6\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":2\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":67\n}\n,\"P01009\":{\n\t\"loValue\":101\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":4\n}\n,\"P01023\":{\n\t\"loValue\":3\n}\n,\"P01024\":{\n\t\"loValue\":73\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":18\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":10\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":96\n}\n,\"P02649\":{\n\t\"loValue\":66\n}\n,\"P02652\":{\n\t\"loValue\":25\n}\n,\"P02654\":{\n\t\"loValue\":7\n}\n,\"P02655\":{\n\t\"loValue\":13\n}\n,\"P02656\":{\n\t\"loValue\":8\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":2\n}\n,\"P02741\":{\n\t\"loValue\":6\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":2\n}\n,\"P02749\":{\n\t\"loValue\":14\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":25\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":6\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":6\n}\n,\"P04004\":{\n\t\"loValue\":68\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":108\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":2\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":3\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":2\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":59\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":4\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":2\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":5\n}\n,\"P0C0L4\":{\n\t\"loValue\":15\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":60\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":4\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":6\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":1\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":40\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":2\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":34\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":21\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":16\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":7\n}\n,\"P69905\":{\n\t\"loValue\":5\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":3\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":1\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":25\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":2\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":2\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":1\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":1\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":10\n}\n,\"Q6SPF0\":{\n\t\"loValue\":1\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":1\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":5\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":1\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":7\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":1\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":1\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":1\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":11\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":1\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":3\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-11212ddb-f743-3c93-b82e-10d6521e3d3d.json b/test/data/enm/study-FCSV-11212ddb-f743-3c93-b82e-10d6521e3d3d.json
new file mode 100644
index 0000000..d29717a
--- /dev/null
+++ b/test/data/enm/study-FCSV-11212ddb-f743-3c93-b82e-10d6521e3d3d.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-11212ddb-f743-3c93-b82e-10d6521e3d3d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.15,
+        "errQualifier": "sd",
+        "errorValue": 0.87
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 47.03,
+        "errQualifier": "sd",
+        "errorValue": 2.72
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.84,
+        "errQualifier": "sd",
+        "errorValue": 1.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 175.14,
+        "errQualifier": "sd",
+        "errorValue": 174.52
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.78,
+        "errQualifier": "sd",
+        "errorValue": 1.18
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.34,
+        "errQualifier": "sd",
+        "errorValue": 2.55
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.78,
+        "errQualifier": "sd",
+        "errorValue": 5.42
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 140.15,
+        "errQualifier": "sd",
+        "errorValue": 85.05
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-116a8aac-4a3b-3a4d-bb75-7fbc7c557fdc.json b/test/data/enm/study-FCSV-116a8aac-4a3b-3a4d-bb75-7fbc7c557fdc.json
new file mode 100644
index 0000000..ab980c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-116a8aac-4a3b-3a4d-bb75-7fbc7c557fdc.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-116a8aac-4a3b-3a4d-bb75-7fbc7c557fdc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-120498bc-f0d0-3c2a-a63b-118f8f8d17e2.json b/test/data/enm/study-FCSV-120498bc-f0d0-3c2a-a63b-118f8f8d17e2.json
new file mode 100644
index 0000000..3eb45f5
--- /dev/null
+++ b/test/data/enm/study-FCSV-120498bc-f0d0-3c2a-a63b-118f8f8d17e2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-120498bc-f0d0-3c2a-a63b-118f8f8d17e2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-120d2c29-406a-3527-9a34-162958138584.json b/test/data/enm/study-FCSV-120d2c29-406a-3527-9a34-162958138584.json
new file mode 100644
index 0000000..e56c511
--- /dev/null
+++ b/test/data/enm/study-FCSV-120d2c29-406a-3527-9a34-162958138584.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-120d2c29-406a-3527-9a34-162958138584",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1224cf68-5413-3fb9-89b2-b8f336a0c650.json b/test/data/enm/study-FCSV-1224cf68-5413-3fb9-89b2-b8f336a0c650.json
new file mode 100644
index 0000000..94ba715
--- /dev/null
+++ b/test/data/enm/study-FCSV-1224cf68-5413-3fb9-89b2-b8f336a0c650.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1224cf68-5413-3fb9-89b2-b8f336a0c650",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.526,
+        "errQualifier": "sd",
+        "errorValue": 0.362
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-12bcba46-c960-35c4-b840-a8b7c04bd42b.json b/test/data/enm/study-FCSV-12bcba46-c960-35c4-b840-a8b7c04bd42b.json
new file mode 100644
index 0000000..fc37693
--- /dev/null
+++ b/test/data/enm/study-FCSV-12bcba46-c960-35c4-b840-a8b7c04bd42b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-12bcba46-c960-35c4-b840-a8b7c04bd42b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.107,
+        "errQualifier": "sd",
+        "errorValue": 0.168
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-12cdb95c-0701-3be5-9b6f-8e9bf56dd790.json b/test/data/enm/study-FCSV-12cdb95c-0701-3be5-9b6f-8e9bf56dd790.json
new file mode 100644
index 0000000..16fcf8a
--- /dev/null
+++ b/test/data/enm/study-FCSV-12cdb95c-0701-3be5-9b6f-8e9bf56dd790.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-12cdb95c-0701-3be5-9b6f-8e9bf56dd790",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -0.6,
+        "errQualifier": "sd",
+        "errorValue": 0.32
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -0.61,
+        "errQualifier": "sd",
+        "errorValue": 2.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-12dc84ee-487f-3046-99fc-1d96772443b6.json b/test/data/enm/study-FCSV-12dc84ee-487f-3046-99fc-1d96772443b6.json
new file mode 100644
index 0000000..936f305
--- /dev/null
+++ b/test/data/enm/study-FCSV-12dc84ee-487f-3046-99fc-1d96772443b6.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-12dc84ee-487f-3046-99fc-1d96772443b6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.16,
+        "errQualifier": "sd",
+        "errorValue": 0.36
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.48,
+        "errQualifier": "sd",
+        "errorValue": 1.17
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.27,
+        "errQualifier": "sd",
+        "errorValue": 13.8
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.45,
+        "errQualifier": "sd",
+        "errorValue": 2.27
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.94,
+        "errQualifier": "sd",
+        "errorValue": 1.11
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.49,
+        "errQualifier": "sd",
+        "errorValue": 2.85
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.94,
+        "errQualifier": "sd",
+        "errorValue": 19.11
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.88,
+        "errQualifier": "sd",
+        "errorValue": 2.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-130b1a65-fcd4-342c-b773-04e3683d01b1.json b/test/data/enm/study-FCSV-130b1a65-fcd4-342c-b773-04e3683d01b1.json
new file mode 100644
index 0000000..ec4f933
--- /dev/null
+++ b/test/data/enm/study-FCSV-130b1a65-fcd4-342c-b773-04e3683d01b1.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-130b1a65-fcd4-342c-b773-04e3683d01b1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.909,
+        "errQualifier": "sd",
+        "errorValue": 0.313
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-130f5f5c-ef30-3af3-8603-f33b7f1df85e.json b/test/data/enm/study-FCSV-130f5f5c-ef30-3af3-8603-f33b7f1df85e.json
new file mode 100644
index 0000000..6a8aa29
--- /dev/null
+++ b/test/data/enm/study-FCSV-130f5f5c-ef30-3af3-8603-f33b7f1df85e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-130f5f5c-ef30-3af3-8603-f33b7f1df85e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.005,
+        "errQualifier": "sd",
+        "errorValue": 0.00057
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.599,
+        "errQualifier": "std",
+        "errorValue": 0.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1336b809-d516-3fd2-8d57-b77762cb2667.json b/test/data/enm/study-FCSV-1336b809-d516-3fd2-8d57-b77762cb2667.json
new file mode 100644
index 0000000..51f3f06
--- /dev/null
+++ b/test/data/enm/study-FCSV-1336b809-d516-3fd2-8d57-b77762cb2667.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-1336b809-d516-3fd2-8d57-b77762cb2667",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 15.22,
+        "errQualifier": "sd",
+        "errorValue": 3.05
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.79,
+        "errQualifier": "sd",
+        "errorValue": 0.28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-13572856-5967-3cf0-91a5-5af5e5b841f5.json b/test/data/enm/study-FCSV-13572856-5967-3cf0-91a5-5af5e5b841f5.json
new file mode 100644
index 0000000..2d15b37
--- /dev/null
+++ b/test/data/enm/study-FCSV-13572856-5967-3cf0-91a5-5af5e5b841f5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-13572856-5967-3cf0-91a5-5af5e5b841f5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":1\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":4\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":126\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":30\n}\n,\"P00742\":{\n\t\"loValue\":99\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":6\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":197\n}\n,\"P01009\":{\n\t\"loValue\":5\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":2\n}\n,\"P01024\":{\n\t\"loValue\":38\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":33\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":19\n}\n,\"P01857\":{\n\t\"loValue\":7\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":29\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":8\n}\n,\"P02649\":{\n\t\"loValue\":83\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":20\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":8\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":5\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":5\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":105\n}\n,\"P04004\":{\n\t\"loValue\":82\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":3\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":77\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":6\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":4\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":7\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":13\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":82\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":7\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":50\n}\n,\"P0C0L5\":{\n\t\"loValue\":7\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":3\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":4\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":5\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":1\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":3\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":1\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":3\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":1\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":2\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":2\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":2\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":12\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":4\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-138df243-dfd0-3bca-873c-14c9ebd8698f.json b/test/data/enm/study-FCSV-138df243-dfd0-3bca-873c-14c9ebd8698f.json
new file mode 100644
index 0000000..0758482
--- /dev/null
+++ b/test/data/enm/study-FCSV-138df243-dfd0-3bca-873c-14c9ebd8698f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-138df243-dfd0-3bca-873c-14c9ebd8698f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.299,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.314,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 527.1,
+        "errQualifier": "sd",
+        "errorValue": 0.56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1395ec38-a087-3aa0-b1e1-9590eb2f15d2.json b/test/data/enm/study-FCSV-1395ec38-a087-3aa0-b1e1-9590eb2f15d2.json
new file mode 100644
index 0000000..3795e02
--- /dev/null
+++ b/test/data/enm/study-FCSV-1395ec38-a087-3aa0-b1e1-9590eb2f15d2.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-1395ec38-a087-3aa0-b1e1-9590eb2f15d2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -24.38,
+        "errQualifier": "sd",
+        "errorValue": 6.15
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.92,
+        "errQualifier": "sd",
+        "errorValue": 1.24
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-13ca7269-bc5a-37c7-9d4e-7cddcb450248.json b/test/data/enm/study-FCSV-13ca7269-bc5a-37c7-9d4e-7cddcb450248.json
new file mode 100644
index 0000000..fad5e57
--- /dev/null
+++ b/test/data/enm/study-FCSV-13ca7269-bc5a-37c7-9d4e-7cddcb450248.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-13ca7269-bc5a-37c7-9d4e-7cddcb450248",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.278,
+        "errQualifier": "sd",
+        "errorValue": 0.047
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.389,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.17,
+        "errQualifier": "sd",
+        "errorValue": 0.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-13e3e3e0-d473-35bd-8931-40bc8054d16c.json b/test/data/enm/study-FCSV-13e3e3e0-d473-35bd-8931-40bc8054d16c.json
new file mode 100644
index 0000000..d6cb243
--- /dev/null
+++ b/test/data/enm/study-FCSV-13e3e3e0-d473-35bd-8931-40bc8054d16c.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-13e3e3e0-d473-35bd-8931-40bc8054d16c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.183,
+        "errQualifier": "sd",
+        "errorValue": 0.076
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.454,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.77,
+        "errQualifier": "sd",
+        "errorValue": 0.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-13ffa8f1-8b2d-3811-83bd-7341bac6df62.json b/test/data/enm/study-FCSV-13ffa8f1-8b2d-3811-83bd-7341bac6df62.json
new file mode 100644
index 0000000..55922bc
--- /dev/null
+++ b/test/data/enm/study-FCSV-13ffa8f1-8b2d-3811-83bd-7341bac6df62.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-13ffa8f1-8b2d-3811-83bd-7341bac6df62",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.387,
+        "errQualifier": "sd",
+        "errorValue": 0.041
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.203,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-13ffd3e7-8e98-3a6f-9560-8ded9f7d7cd2.json b/test/data/enm/study-FCSV-13ffd3e7-8e98-3a6f-9560-8ded9f7d7cd2.json
new file mode 100644
index 0000000..11a093f
--- /dev/null
+++ b/test/data/enm/study-FCSV-13ffd3e7-8e98-3a6f-9560-8ded9f7d7cd2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-13ffd3e7-8e98-3a6f-9560-8ded9f7d7cd2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.724,
+        "errQualifier": "sd",
+        "errorValue": 0.465
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1437521a-4c31-3fbc-8320-bb11223b3877.json b/test/data/enm/study-FCSV-1437521a-4c31-3fbc-8320-bb11223b3877.json
new file mode 100644
index 0000000..78ce8b8
--- /dev/null
+++ b/test/data/enm/study-FCSV-1437521a-4c31-3fbc-8320-bb11223b3877.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1437521a-4c31-3fbc-8320-bb11223b3877",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1467ff02-f126-36a9-8cac-1cce269ffec6.json b/test/data/enm/study-FCSV-1467ff02-f126-36a9-8cac-1cce269ffec6.json
new file mode 100644
index 0000000..64e4dd3
--- /dev/null
+++ b/test/data/enm/study-FCSV-1467ff02-f126-36a9-8cac-1cce269ffec6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-1467ff02-f126-36a9-8cac-1cce269ffec6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.095,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.104,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-146e13fb-2fb6-33ff-88fc-688a8fa67bc1.json b/test/data/enm/study-FCSV-146e13fb-2fb6-33ff-88fc-688a8fa67bc1.json
new file mode 100644
index 0000000..baf6735
--- /dev/null
+++ b/test/data/enm/study-FCSV-146e13fb-2fb6-33ff-88fc-688a8fa67bc1.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-146e13fb-2fb6-33ff-88fc-688a8fa67bc1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":1\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":10\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":8\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":3\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":3\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":3\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":496\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":7\n}\n,\"P00740\":{\n\t\"loValue\":92\n}\n,\"P00742\":{\n\t\"loValue\":181\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":63\n}\n,\"P01009\":{\n\t\"loValue\":82\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":9\n}\n,\"P01023\":{\n\t\"loValue\":90\n}\n,\"P01024\":{\n\t\"loValue\":55\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":3\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":43\n}\n,\"P01857\":{\n\t\"loValue\":41\n}\n,\"P01859\":{\n\t\"loValue\":5\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":45\n}\n,\"P01876\":{\n\t\"loValue\":42\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":17\n}\n,\"P02649\":{\n\t\"loValue\":0\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":6\n}\n,\"P02743\":{\n\t\"loValue\":11\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":4\n}\n,\"P02760\":{\n\t\"loValue\":50\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":14\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":14\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":394\n}\n,\"P04004\":{\n\t\"loValue\":88\n}\n,\"P04070\":{\n\t\"loValue\":49\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":39\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":2\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":14\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":4\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":5\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":8\n}\n,\"P05155\":{\n\t\"loValue\":8\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":144\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":17\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":3\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":30\n}\n,\"P08709\":{\n\t\"loValue\":9\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":177\n}\n,\"P0C0L5\":{\n\t\"loValue\":22\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":17\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":17\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":33\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":2\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":3\n}\n,\"P14543\":{\n\t\"loValue\":1\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":11\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":2\n}\n,\"P16112\":{\n\t\"loValue\":2\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":137\n}\n,\"P19827\":{\n\t\"loValue\":102\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":26\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":32\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":14\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":18\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":3\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":1\n}\n,\"P49747\":{\n\t\"loValue\":7\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":5\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":1\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":1\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":87\n}\n,\"Q07507\":{\n\t\"loValue\":3\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":8\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":2\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":2\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":4\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":163\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":2\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":2\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":1\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":1\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":3\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":3\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":2\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":1\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":1\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":11\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":2\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":1\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-148ac9e1-6cdb-38e9-930e-2e29213cb447.json b/test/data/enm/study-FCSV-148ac9e1-6cdb-38e9-930e-2e29213cb447.json
new file mode 100644
index 0000000..317e2ec
--- /dev/null
+++ b/test/data/enm/study-FCSV-148ac9e1-6cdb-38e9-930e-2e29213cb447.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-148ac9e1-6cdb-38e9-930e-2e29213cb447",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-148d13fb-53d7-3da9-9d01-23aff8a9f457.json b/test/data/enm/study-FCSV-148d13fb-53d7-3da9-9d01-23aff8a9f457.json
new file mode 100644
index 0000000..abc9965
--- /dev/null
+++ b/test/data/enm/study-FCSV-148d13fb-53d7-3da9-9d01-23aff8a9f457.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-148d13fb-53d7-3da9-9d01-23aff8a9f457",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-150c15f1-0968-37d7-a389-5ef5052edfb1.json b/test/data/enm/study-FCSV-150c15f1-0968-37d7-a389-5ef5052edfb1.json
new file mode 100644
index 0000000..ab71b32
--- /dev/null
+++ b/test/data/enm/study-FCSV-150c15f1-0968-37d7-a389-5ef5052edfb1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-150c15f1-0968-37d7-a389-5ef5052edfb1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -32.37,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.9,
+        "errQualifier": "sd",
+        "errorValue": 0.19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-151757f1-9270-3757-a224-2a2469f1478a.json b/test/data/enm/study-FCSV-151757f1-9270-3757-a224-2a2469f1478a.json
new file mode 100644
index 0000000..46a9249
--- /dev/null
+++ b/test/data/enm/study-FCSV-151757f1-9270-3757-a224-2a2469f1478a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-151757f1-9270-3757-a224-2a2469f1478a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":3\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":134\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":364\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":6\n}\n,\"P01024\":{\n\t\"loValue\":107\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":22\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":15\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":1\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":9\n}\n,\"P02649\":{\n\t\"loValue\":129\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":68\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":16\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":9\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":90\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":33\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":51\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":15\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":12\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":6\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":12\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":9\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":20\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":1\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":13\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":1\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":1\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":11\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":6\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-153bdca6-e55e-3da8-a28d-0c9d3ec85dc8.json b/test/data/enm/study-FCSV-153bdca6-e55e-3da8-a28d-0c9d3ec85dc8.json
new file mode 100644
index 0000000..3c30c83
--- /dev/null
+++ b/test/data/enm/study-FCSV-153bdca6-e55e-3da8-a28d-0c9d3ec85dc8.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-153bdca6-e55e-3da8-a28d-0c9d3ec85dc8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-asparagine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1579475a-3b74-3d5a-8a56-4bab4b59498d.json b/test/data/enm/study-FCSV-1579475a-3b74-3d5a-8a56-4bab4b59498d.json
new file mode 100644
index 0000000..2aa0ff9
--- /dev/null
+++ b/test/data/enm/study-FCSV-1579475a-3b74-3d5a-8a56-4bab4b59498d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-1579475a-3b74-3d5a-8a56-4bab4b59498d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.156,
+        "errQualifier": "sd",
+        "errorValue": 0.098
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.173,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-15c0af9b-d9c7-3a94-b0eb-984ac41ee39d.json b/test/data/enm/study-FCSV-15c0af9b-d9c7-3a94-b0eb-984ac41ee39d.json
new file mode 100644
index 0000000..616ed2d
--- /dev/null
+++ b/test/data/enm/study-FCSV-15c0af9b-d9c7-3a94-b0eb-984ac41ee39d.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-15c0af9b-d9c7-3a94-b0eb-984ac41ee39d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 20.98,
+        "errQualifier": "sd",
+        "errorValue": 1.96
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 46.53,
+        "errQualifier": "sd",
+        "errorValue": 1.59
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.45,
+        "errQualifier": "sd",
+        "errorValue": 10.05
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 126.27,
+        "errQualifier": "sd",
+        "errorValue": 136.44
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.7,
+        "errQualifier": "sd",
+        "errorValue": 3.42
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.76,
+        "errQualifier": "sd",
+        "errorValue": 9.04
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.7,
+        "errQualifier": "sd",
+        "errorValue": 19.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67.36,
+        "errQualifier": "sd",
+        "errorValue": 6.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-15d3809c-2cc2-3dae-8238-7f9d040a7935.json b/test/data/enm/study-FCSV-15d3809c-2cc2-3dae-8238-7f9d040a7935.json
new file mode 100644
index 0000000..5bb6ed2
--- /dev/null
+++ b/test/data/enm/study-FCSV-15d3809c-2cc2-3dae-8238-7f9d040a7935.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-15d3809c-2cc2-3dae-8238-7f9d040a7935",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 101.32,
+        "errQualifier": "sd",
+        "errorValue": 2.66
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 98.21,
+        "errQualifier": "sd",
+        "errorValue": 3.85
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 100.49,
+        "errQualifier": "sd",
+        "errorValue": 4.2
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 392.16,
+        "errQualifier": "sd",
+        "errorValue": 484.34
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 103.75,
+        "errQualifier": "sd",
+        "errorValue": 2.1
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 91.72,
+        "errQualifier": "sd",
+        "errorValue": 5.42
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 103.75,
+        "errQualifier": "sd",
+        "errorValue": 4.38
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 109.48,
+        "errQualifier": "sd",
+        "errorValue": 11.54
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1660165b-4702-3dac-92c4-9808e2962f34.json b/test/data/enm/study-FCSV-1660165b-4702-3dac-92c4-9808e2962f34.json
new file mode 100644
index 0000000..60f91a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-1660165b-4702-3dac-92c4-9808e2962f34.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1660165b-4702-3dac-92c4-9808e2962f34",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "alpha-Lipoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-167e5d4d-a82b-3308-9e27-b439cbef8835.json b/test/data/enm/study-FCSV-167e5d4d-a82b-3308-9e27-b439cbef8835.json
new file mode 100644
index 0000000..deab43d
--- /dev/null
+++ b/test/data/enm/study-FCSV-167e5d4d-a82b-3308-9e27-b439cbef8835.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-167e5d4d-a82b-3308-9e27-b439cbef8835",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.68,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 67.37,
+        "errQualifier": "sd",
+        "errorValue": 3.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.28,
+        "errQualifier": "sd",
+        "errorValue": 1.06
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.96,
+        "errQualifier": "sd",
+        "errorValue": 7.72
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.11,
+        "errQualifier": "sd",
+        "errorValue": 0.96
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.65,
+        "errQualifier": "sd",
+        "errorValue": 5.94
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.11,
+        "errQualifier": "sd",
+        "errorValue": 1.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76.17,
+        "errQualifier": "sd",
+        "errorValue": 5.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-169824a1-7280-3868-acde-0ee9c6759ec8.json b/test/data/enm/study-FCSV-169824a1-7280-3868-acde-0ee9c6759ec8.json
new file mode 100644
index 0000000..a82fba1
--- /dev/null
+++ b/test/data/enm/study-FCSV-169824a1-7280-3868-acde-0ee9c6759ec8.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-169824a1-7280-3868-acde-0ee9c6759ec8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.138,
+        "errQualifier": "sd",
+        "errorValue": 0.063
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.217,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-169dcf2a-849b-3f46-a3d8-4642b48e6531.json b/test/data/enm/study-FCSV-169dcf2a-849b-3f46-a3d8-4642b48e6531.json
new file mode 100644
index 0000000..6e6e9e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-169dcf2a-849b-3f46-a3d8-4642b48e6531.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-169dcf2a-849b-3f46-a3d8-4642b48e6531",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.227,
+        "errQualifier": "sd",
+        "errorValue": 0.07
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.278,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.43,
+        "errQualifier": "sd",
+        "errorValue": 0.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-16d66d7a-493a-3284-8f30-fa70882b2352.json b/test/data/enm/study-FCSV-16d66d7a-493a-3284-8f30-fa70882b2352.json
new file mode 100644
index 0000000..0329640
--- /dev/null
+++ b/test/data/enm/study-FCSV-16d66d7a-493a-3284-8f30-fa70882b2352.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-16d66d7a-493a-3284-8f30-fa70882b2352",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.245,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.288,
+        "errQualifier": "sd",
+        "errorValue": 0.087
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 542.1,
+        "errQualifier": "sd",
+        "errorValue": 1.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-16da542b-45e9-31a1-bff3-cb8125e29bba.json b/test/data/enm/study-FCSV-16da542b-45e9-31a1-bff3-cb8125e29bba.json
new file mode 100644
index 0000000..288839a
--- /dev/null
+++ b/test/data/enm/study-FCSV-16da542b-45e9-31a1-bff3-cb8125e29bba.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-16da542b-45e9-31a1-bff3-cb8125e29bba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1701c31c-eb5e-39aa-bd4b-f9e119c9b53e.json b/test/data/enm/study-FCSV-1701c31c-eb5e-39aa-bd4b-f9e119c9b53e.json
new file mode 100644
index 0000000..341a5e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-1701c31c-eb5e-39aa-bd4b-f9e119c9b53e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1701c31c-eb5e-39aa-bd4b-f9e119c9b53e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-171774bb-5f86-377a-bea9-1b204a3d3ed7.json b/test/data/enm/study-FCSV-171774bb-5f86-377a-bea9-1b204a3d3ed7.json
new file mode 100644
index 0000000..8c513dd
--- /dev/null
+++ b/test/data/enm/study-FCSV-171774bb-5f86-377a-bea9-1b204a3d3ed7.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-171774bb-5f86-377a-bea9-1b204a3d3ed7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 11.21,
+        "errQualifier": "sd",
+        "errorValue": 6.16
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.73,
+        "errQualifier": "sd",
+        "errorValue": 1.56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-172f6ec5-2e1f-34a3-be87-ee6292219cfc.json b/test/data/enm/study-FCSV-172f6ec5-2e1f-34a3-be87-ee6292219cfc.json
new file mode 100644
index 0000000..0ddb43b
--- /dev/null
+++ b/test/data/enm/study-FCSV-172f6ec5-2e1f-34a3-be87-ee6292219cfc.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-172f6ec5-2e1f-34a3-be87-ee6292219cfc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1755a2f7-a5c0-376a-aa1d-a32dd0065631.json b/test/data/enm/study-FCSV-1755a2f7-a5c0-376a-aa1d-a32dd0065631.json
new file mode 100644
index 0000000..04090b7
--- /dev/null
+++ b/test/data/enm/study-FCSV-1755a2f7-a5c0-376a-aa1d-a32dd0065631.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-1755a2f7-a5c0-376a-aa1d-a32dd0065631",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 484.133,
+        "errQualifier": "sd",
+        "errorValue": 77.214
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.033
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-17c29c10-65bd-35af-9ee0-03b9144be455.json b/test/data/enm/study-FCSV-17c29c10-65bd-35af-9ee0-03b9144be455.json
new file mode 100644
index 0000000..1c4c237
--- /dev/null
+++ b/test/data/enm/study-FCSV-17c29c10-65bd-35af-9ee0-03b9144be455.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-17c29c10-65bd-35af-9ee0-03b9144be455",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1814e758-0073-36e8-a18e-af308f1d178d.json b/test/data/enm/study-FCSV-1814e758-0073-36e8-a18e-af308f1d178d.json
new file mode 100644
index 0000000..bf7b013
--- /dev/null
+++ b/test/data/enm/study-FCSV-1814e758-0073-36e8-a18e-af308f1d178d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-1814e758-0073-36e8-a18e-af308f1d178d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":7\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":6\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":2\n}\n,\"O95810\":{\n\t\"loValue\":1\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":120\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":21\n}\n,\"P00742\":{\n\t\"loValue\":166\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":11\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":152\n}\n,\"P01009\":{\n\t\"loValue\":14\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":8\n}\n,\"P01024\":{\n\t\"loValue\":77\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":46\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":4\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":43\n}\n,\"P01857\":{\n\t\"loValue\":23\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":57\n}\n,\"P01876\":{\n\t\"loValue\":21\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":145\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":197\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":2\n}\n,\"P02747\":{\n\t\"loValue\":4\n}\n,\"P02748\":{\n\t\"loValue\":6\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":2\n}\n,\"P02776\":{\n\t\"loValue\":9\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":1\n}\n,\"P02788\":{\n\t\"loValue\":2\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":13\n}\n,\"P03951\":{\n\t\"loValue\":10\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":371\n}\n,\"P04004\":{\n\t\"loValue\":74\n}\n,\"P04070\":{\n\t\"loValue\":11\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":84\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":38\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":7\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":2\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":1\n}\n,\"P05546\":{\n\t\"loValue\":6\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":2\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":133\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":5\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":113\n}\n,\"P0C0L5\":{\n\t\"loValue\":16\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":15\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":23\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":1\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":21\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":2\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":1\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":2\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":7\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":1\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":1\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":1\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":1\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":7\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":1\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":5\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":1\n}\n,\"Q15485\":{\n\t\"loValue\":1\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":1\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":1\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":4\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":1\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":1\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":2\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":1\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":4\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":7\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":1\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":2\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":1\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":1\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":6\n}\n,\"Q9UEW3\":{\n\t\"loValue\":1\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":1\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":1\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":13\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":5\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":1\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":1\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-18606315-8e61-3976-b801-7805429d99ad.json b/test/data/enm/study-FCSV-18606315-8e61-3976-b801-7805429d99ad.json
new file mode 100644
index 0000000..8167c6c
--- /dev/null
+++ b/test/data/enm/study-FCSV-18606315-8e61-3976-b801-7805429d99ad.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-18606315-8e61-3976-b801-7805429d99ad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 260.336,
+        "errQualifier": "sd",
+        "errorValue": 4.165
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.036
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-18723cc2-a174-3136-9924-a837ebf50229.json b/test/data/enm/study-FCSV-18723cc2-a174-3136-9924-a837ebf50229.json
new file mode 100644
index 0000000..40716cf
--- /dev/null
+++ b/test/data/enm/study-FCSV-18723cc2-a174-3136-9924-a837ebf50229.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-18723cc2-a174-3136-9924-a837ebf50229",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.007,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.181,
+        "errQualifier": "std",
+        "errorValue": 1.011
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1920c084-5487-3bef-9fca-2f1fc2402374.json b/test/data/enm/study-FCSV-1920c084-5487-3bef-9fca-2f1fc2402374.json
new file mode 100644
index 0000000..2f9553d
--- /dev/null
+++ b/test/data/enm/study-FCSV-1920c084-5487-3bef-9fca-2f1fc2402374.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1920c084-5487-3bef-9fca-2f1fc2402374",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-193b8b8d-307a-3d4c-a390-65a2d895ff83.json b/test/data/enm/study-FCSV-193b8b8d-307a-3d4c-a390-65a2d895ff83.json
new file mode 100644
index 0000000..994899d
--- /dev/null
+++ b/test/data/enm/study-FCSV-193b8b8d-307a-3d4c-a390-65a2d895ff83.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-193b8b8d-307a-3d4c-a390-65a2d895ff83",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-196f2ee1-b3fe-3697-8af4-2e7c1c06cf4a.json b/test/data/enm/study-FCSV-196f2ee1-b3fe-3697-8af4-2e7c1c06cf4a.json
new file mode 100644
index 0000000..6c86baa
--- /dev/null
+++ b/test/data/enm/study-FCSV-196f2ee1-b3fe-3697-8af4-2e7c1c06cf4a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-196f2ee1-b3fe-3697-8af4-2e7c1c06cf4a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.001,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -9.583,
+        "errQualifier": "std",
+        "errorValue": 2.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-19717d89-6782-36f4-81c0-f8ca70a25a95.json b/test/data/enm/study-FCSV-19717d89-6782-36f4-81c0-f8ca70a25a95.json
new file mode 100644
index 0000000..b07af70
--- /dev/null
+++ b/test/data/enm/study-FCSV-19717d89-6782-36f4-81c0-f8ca70a25a95.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-19717d89-6782-36f4-81c0-f8ca70a25a95",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-19a186f9-da91-30cd-a3db-e42c83a47f26.json b/test/data/enm/study-FCSV-19a186f9-da91-30cd-a3db-e42c83a47f26.json
new file mode 100644
index 0000000..0900822
--- /dev/null
+++ b/test/data/enm/study-FCSV-19a186f9-da91-30cd-a3db-e42c83a47f26.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-19a186f9-da91-30cd-a3db-e42c83a47f26",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-19a4aaed-5550-338c-9a16-52bb29fb2aa2.json b/test/data/enm/study-FCSV-19a4aaed-5550-338c-9a16-52bb29fb2aa2.json
new file mode 100644
index 0000000..2de7654
--- /dev/null
+++ b/test/data/enm/study-FCSV-19a4aaed-5550-338c-9a16-52bb29fb2aa2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-19a4aaed-5550-338c-9a16-52bb29fb2aa2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-19b438d2-d827-3eda-b4f6-9f6ef8b0dea1.json b/test/data/enm/study-FCSV-19b438d2-d827-3eda-b4f6-9f6ef8b0dea1.json
new file mode 100644
index 0000000..b5d752a
--- /dev/null
+++ b/test/data/enm/study-FCSV-19b438d2-d827-3eda-b4f6-9f6ef8b0dea1.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-19b438d2-d827-3eda-b4f6-9f6ef8b0dea1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1a4dd8d4-9ebf-3ecf-a172-21c33aedb57d.json b/test/data/enm/study-FCSV-1a4dd8d4-9ebf-3ecf-a172-21c33aedb57d.json
new file mode 100644
index 0000000..934ec7b
--- /dev/null
+++ b/test/data/enm/study-FCSV-1a4dd8d4-9ebf-3ecf-a172-21c33aedb57d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1a4dd8d4-9ebf-3ecf-a172-21c33aedb57d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.002,
+        "errQualifier": "sd",
+        "errorValue": 0.588
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1a6881d8-5771-36cf-bfc1-a1f452e85a10.json b/test/data/enm/study-FCSV-1a6881d8-5771-36cf-bfc1-a1f452e85a10.json
new file mode 100644
index 0000000..18c9693
--- /dev/null
+++ b/test/data/enm/study-FCSV-1a6881d8-5771-36cf-bfc1-a1f452e85a10.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1a6881d8-5771-36cf-bfc1-a1f452e85a10",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.486,
+        "errQualifier": "sd",
+        "errorValue": 0.543
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1a9f873f-bf04-35e9-a11d-92eb2e8141b4.json b/test/data/enm/study-FCSV-1a9f873f-bf04-35e9-a11d-92eb2e8141b4.json
new file mode 100644
index 0000000..63202a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-1a9f873f-bf04-35e9-a11d-92eb2e8141b4.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-1a9f873f-bf04-35e9-a11d-92eb2e8141b4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1ad6a0f7-f0e0-3890-be09-1554eb6736c5.json b/test/data/enm/study-FCSV-1ad6a0f7-f0e0-3890-be09-1554eb6736c5.json
new file mode 100644
index 0000000..f5d62e2
--- /dev/null
+++ b/test/data/enm/study-FCSV-1ad6a0f7-f0e0-3890-be09-1554eb6736c5.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1ad6a0f7-f0e0-3890-be09-1554eb6736c5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1ae028fc-b6ac-3a68-a182-6713097af302.json b/test/data/enm/study-FCSV-1ae028fc-b6ac-3a68-a182-6713097af302.json
new file mode 100644
index 0000000..0d4a06c
--- /dev/null
+++ b/test/data/enm/study-FCSV-1ae028fc-b6ac-3a68-a182-6713097af302.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1ae028fc-b6ac-3a68-a182-6713097af302",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1b170584-8ded-359d-adea-4f4b8b0c060a.json b/test/data/enm/study-FCSV-1b170584-8ded-359d-adea-4f4b8b0c060a.json
new file mode 100644
index 0000000..4992408
--- /dev/null
+++ b/test/data/enm/study-FCSV-1b170584-8ded-359d-adea-4f4b8b0c060a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1b170584-8ded-359d-adea-4f4b8b0c060a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.552,
+        "errQualifier": "sd",
+        "errorValue": 0.895
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1b8b2728-dbdb-33a8-b74f-b8f3741f2c8b.json b/test/data/enm/study-FCSV-1b8b2728-dbdb-33a8-b74f-b8f3741f2c8b.json
new file mode 100644
index 0000000..073e09b
--- /dev/null
+++ b/test/data/enm/study-FCSV-1b8b2728-dbdb-33a8-b74f-b8f3741f2c8b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-1b8b2728-dbdb-33a8-b74f-b8f3741f2c8b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.829,
+        "errQualifier": "sd",
+        "errorValue": 0.062
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.27,
+        "errQualifier": "std",
+        "errorValue": 0.108
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1bb7dc00-802b-34d9-afe9-338b1c8dd198.json b/test/data/enm/study-FCSV-1bb7dc00-802b-34d9-afe9-338b1c8dd198.json
new file mode 100644
index 0000000..eb59b85
--- /dev/null
+++ b/test/data/enm/study-FCSV-1bb7dc00-802b-34d9-afe9-338b1c8dd198.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1bb7dc00-802b-34d9-afe9-338b1c8dd198",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1bddf7eb-191a-3881-b89e-db70ad9d3bf0.json b/test/data/enm/study-FCSV-1bddf7eb-191a-3881-b89e-db70ad9d3bf0.json
new file mode 100644
index 0000000..5456ade
--- /dev/null
+++ b/test/data/enm/study-FCSV-1bddf7eb-191a-3881-b89e-db70ad9d3bf0.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-1bddf7eb-191a-3881-b89e-db70ad9d3bf0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":14\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":2\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":7\n}\n,\"P00736\":{\n\t\"loValue\":8\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":9\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":8\n}\n,\"P00751\":{\n\t\"loValue\":6\n}\n,\"P01008\":{\n\t\"loValue\":9\n}\n,\"P01009\":{\n\t\"loValue\":10\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":14\n}\n,\"P01024\":{\n\t\"loValue\":90\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":109\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":1\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":42\n}\n,\"P01857\":{\n\t\"loValue\":23\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":8\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":16\n}\n,\"P01876\":{\n\t\"loValue\":35\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":20\n}\n,\"P02649\":{\n\t\"loValue\":26\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":21\n}\n,\"P02671\":{\n\t\"loValue\":12\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":63\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":3\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":5\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":2\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":2\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":19\n}\n,\"P03952\":{\n\t\"loValue\":23\n}\n,\"P04003\":{\n\t\"loValue\":10\n}\n,\"P04004\":{\n\t\"loValue\":21\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":21\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":4\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":5\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":22\n}\n,\"P05155\":{\n\t\"loValue\":17\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":14\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":42\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":3\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":10\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":100\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":4\n}\n,\"P0C0L4\":{\n\t\"loValue\":41\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":21\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":9\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":3\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":1\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":1\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":1\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":3\n}\n,\"P36980\":{\n\t\"loValue\":1\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":10\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":21\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":143\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":1\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":18\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1bf73c22-010c-3d73-a7a5-8b3213b9e244.json b/test/data/enm/study-FCSV-1bf73c22-010c-3d73-a7a5-8b3213b9e244.json
new file mode 100644
index 0000000..82b68de
--- /dev/null
+++ b/test/data/enm/study-FCSV-1bf73c22-010c-3d73-a7a5-8b3213b9e244.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-1bf73c22-010c-3d73-a7a5-8b3213b9e244",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.36,
+        "errQualifier": "sd",
+        "errorValue": 0.46
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.05,
+        "errQualifier": "sd",
+        "errorValue": 1.11
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20.78,
+        "errQualifier": "sd",
+        "errorValue": 1.63
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.9,
+        "errQualifier": "sd",
+        "errorValue": 10.53
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.76,
+        "errQualifier": "sd",
+        "errorValue": 2.07
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.01,
+        "errQualifier": "sd",
+        "errorValue": 11.16
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.76,
+        "errQualifier": "sd",
+        "errorValue": 0.48
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.03,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c063b53-e4b3-3050-93c0-4c1f37532017.json b/test/data/enm/study-FCSV-1c063b53-e4b3-3050-93c0-4c1f37532017.json
new file mode 100644
index 0000000..872c5b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c063b53-e4b3-3050-93c0-4c1f37532017.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1c063b53-e4b3-3050-93c0-4c1f37532017",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Hexadecyltrimethylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c210757-4174-3e67-b7de-967948600816.json b/test/data/enm/study-FCSV-1c210757-4174-3e67-b7de-967948600816.json
new file mode 100644
index 0000000..cd69af2
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c210757-4174-3e67-b7de-967948600816.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-1c210757-4174-3e67-b7de-967948600816",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 471.03,
+        "errQualifier": "sd",
+        "errorValue": 16.789
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.063
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c3cc46d-d53e-39e8-95da-59cc630d9d66.json b/test/data/enm/study-FCSV-1c3cc46d-d53e-39e8-95da-59cc630d9d66.json
new file mode 100644
index 0000000..6642ce0
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c3cc46d-d53e-39e8-95da-59cc630d9d66.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-1c3cc46d-d53e-39e8-95da-59cc630d9d66",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c8a05d1-15b9-3d0c-83ef-d0cb432394de.json b/test/data/enm/study-FCSV-1c8a05d1-15b9-3d0c-83ef-d0cb432394de.json
new file mode 100644
index 0000000..83ab9c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c8a05d1-15b9-3d0c-83ef-d0cb432394de.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-1c8a05d1-15b9-3d0c-83ef-d0cb432394de",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c8ae5a0-9bf5-3d5a-937b-82db35709d7b.json b/test/data/enm/study-FCSV-1c8ae5a0-9bf5-3d5a-937b-82db35709d7b.json
new file mode 100644
index 0000000..c8b34e0
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c8ae5a0-9bf5-3d5a-937b-82db35709d7b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1c8ae5a0-9bf5-3d5a-937b-82db35709d7b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-serine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c9486e4-b475-3f02-a7bf-00f82a77f2e1.json b/test/data/enm/study-FCSV-1c9486e4-b475-3f02-a7bf-00f82a77f2e1.json
new file mode 100644
index 0000000..f4c7b4f
--- /dev/null
+++ b/test/data/enm/study-FCSV-1c9486e4-b475-3f02-a7bf-00f82a77f2e1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-1c9486e4-b475-3f02-a7bf-00f82a77f2e1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -20.96,
+        "errQualifier": "sd",
+        "errorValue": 5.41
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.71,
+        "errQualifier": "sd",
+        "errorValue": 0.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1cc9d7ef-445f-3a59-beab-ea9f42299a42.json b/test/data/enm/study-FCSV-1cc9d7ef-445f-3a59-beab-ea9f42299a42.json
new file mode 100644
index 0000000..4bcc7b9
--- /dev/null
+++ b/test/data/enm/study-FCSV-1cc9d7ef-445f-3a59-beab-ea9f42299a42.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-1cc9d7ef-445f-3a59-beab-ea9f42299a42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.013,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.223,
+        "errQualifier": "std",
+        "errorValue": 0.401
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1cd7fcc4-dec1-36e3-b78d-e0f62d328081.json b/test/data/enm/study-FCSV-1cd7fcc4-dec1-36e3-b78d-e0f62d328081.json
new file mode 100644
index 0000000..49c83a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-1cd7fcc4-dec1-36e3-b78d-e0f62d328081.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-1cd7fcc4-dec1-36e3-b78d-e0f62d328081",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":3\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":122\n}\n,\"P00736\":{\n\t\"loValue\":23\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":1\n}\n,\"P00748\":{\n\t\"loValue\":9\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":221\n}\n,\"P01009\":{\n\t\"loValue\":13\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":23\n}\n,\"P01024\":{\n\t\"loValue\":145\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":40\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":23\n}\n,\"P01857\":{\n\t\"loValue\":29\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":10\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":33\n}\n,\"P01876\":{\n\t\"loValue\":16\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":9\n}\n,\"P02649\":{\n\t\"loValue\":169\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":62\n}\n,\"P02745\":{\n\t\"loValue\":6\n}\n,\"P02746\":{\n\t\"loValue\":16\n}\n,\"P02747\":{\n\t\"loValue\":16\n}\n,\"P02748\":{\n\t\"loValue\":11\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":44\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":21\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":5\n}\n,\"P03951\":{\n\t\"loValue\":27\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":63\n}\n,\"P04004\":{\n\t\"loValue\":66\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":157\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":87\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":1\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":21\n}\n,\"P05155\":{\n\t\"loValue\":8\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":15\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":13\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":6\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":76\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":43\n}\n,\"P08697\":{\n\t\"loValue\":2\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":20\n}\n,\"P0C0L4\":{\n\t\"loValue\":54\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":4\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":25\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":6\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":1\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":18\n}\n,\"P19827\":{\n\t\"loValue\":7\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":3\n}\n,\"P21333\":{\n\t\"loValue\":12\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":1\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":4\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":10\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":2\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":1\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":6\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":4\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":1\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":3\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":1\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":1\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":1\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":46\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":5\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":26\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":2\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":1\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":2\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":3\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":15\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":1\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1ceadd7c-e301-3529-9130-7a4b9df74aed.json b/test/data/enm/study-FCSV-1ceadd7c-e301-3529-9130-7a4b9df74aed.json
new file mode 100644
index 0000000..5d83c28
--- /dev/null
+++ b/test/data/enm/study-FCSV-1ceadd7c-e301-3529-9130-7a4b9df74aed.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1ceadd7c-e301-3529-9130-7a4b9df74aed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1d233288-dc06-3c40-9b33-7b915935eb8e.json b/test/data/enm/study-FCSV-1d233288-dc06-3c40-9b33-7b915935eb8e.json
new file mode 100644
index 0000000..5978da3
--- /dev/null
+++ b/test/data/enm/study-FCSV-1d233288-dc06-3c40-9b33-7b915935eb8e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1d233288-dc06-3c40-9b33-7b915935eb8e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Octadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1d5622db-e628-386c-a854-3b8e9b231282.json b/test/data/enm/study-FCSV-1d5622db-e628-386c-a854-3b8e9b231282.json
new file mode 100644
index 0000000..39bd2a7
--- /dev/null
+++ b/test/data/enm/study-FCSV-1d5622db-e628-386c-a854-3b8e9b231282.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-1d5622db-e628-386c-a854-3b8e9b231282",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1d976109-c237-3eda-9b62-34d34abb6d00.json b/test/data/enm/study-FCSV-1d976109-c237-3eda-9b62-34d34abb6d00.json
new file mode 100644
index 0000000..9879bd7
--- /dev/null
+++ b/test/data/enm/study-FCSV-1d976109-c237-3eda-9b62-34d34abb6d00.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-1d976109-c237-3eda-9b62-34d34abb6d00",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":18\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":4\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":4\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":4\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":85\n}\n,\"P00736\":{\n\t\"loValue\":3\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":6\n}\n,\"P00748\":{\n\t\"loValue\":4\n}\n,\"P00751\":{\n\t\"loValue\":4\n}\n,\"P01008\":{\n\t\"loValue\":155\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":34\n}\n,\"P01024\":{\n\t\"loValue\":333\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":263\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":1\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":2\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":2\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":61\n}\n,\"P01857\":{\n\t\"loValue\":37\n}\n,\"P01859\":{\n\t\"loValue\":13\n}\n,\"P01860\":{\n\t\"loValue\":14\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":32\n}\n,\"P01876\":{\n\t\"loValue\":65\n}\n,\"P01877\":{\n\t\"loValue\":7\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":13\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":17\n}\n,\"P02671\":{\n\t\"loValue\":10\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":10\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":1\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":75\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":1\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":9\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":2\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":61\n}\n,\"P03952\":{\n\t\"loValue\":61\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":85\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":31\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":31\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":2\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":3\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":94\n}\n,\"P05155\":{\n\t\"loValue\":5\n}\n,\"P05156\":{\n\t\"loValue\":6\n}\n,\"P05452\":{\n\t\"loValue\":4\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":25\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":3\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":5\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":339\n}\n,\"P08697\":{\n\t\"loValue\":15\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":2\n}\n,\"P0C0L4\":{\n\t\"loValue\":185\n}\n,\"P0C0L5\":{\n\t\"loValue\":10\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":15\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":2\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":38\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":2\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":1\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":7\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":2\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":3\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":2\n}\n,\"P39060\":{\n\t\"loValue\":4\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":10\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":15\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":80\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":201\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":25\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":1\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":2\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":43\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":3\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":15\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":4\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1df7bae9-3da0-32ec-a2b0-e3161d7cd124.json b/test/data/enm/study-FCSV-1df7bae9-3da0-32ec-a2b0-e3161d7cd124.json
new file mode 100644
index 0000000..a361667
--- /dev/null
+++ b/test/data/enm/study-FCSV-1df7bae9-3da0-32ec-a2b0-e3161d7cd124.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-1df7bae9-3da0-32ec-a2b0-e3161d7cd124",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 25.73,
+        "errQualifier": "sd",
+        "errorValue": 2.08
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.7,
+        "errQualifier": "sd",
+        "errorValue": 1.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1e2a84cd-a43b-3202-8f59-28e79e3e78b7.json b/test/data/enm/study-FCSV-1e2a84cd-a43b-3202-8f59-28e79e3e78b7.json
new file mode 100644
index 0000000..e16e4b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-1e2a84cd-a43b-3202-8f59-28e79e3e78b7.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-1e2a84cd-a43b-3202-8f59-28e79e3e78b7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 948.918,
+        "errQualifier": "sd",
+        "errorValue": 55.04
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.034
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1e31a2da-12bb-38ab-b284-6b8ff9d309ea.json b/test/data/enm/study-FCSV-1e31a2da-12bb-38ab-b284-6b8ff9d309ea.json
new file mode 100644
index 0000000..8e12ece
--- /dev/null
+++ b/test/data/enm/study-FCSV-1e31a2da-12bb-38ab-b284-6b8ff9d309ea.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1e31a2da-12bb-38ab-b284-6b8ff9d309ea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1e9e9d39-7dd3-38a2-ac56-9b122c02f796.json b/test/data/enm/study-FCSV-1e9e9d39-7dd3-38a2-ac56-9b122c02f796.json
new file mode 100644
index 0000000..e80f17f
--- /dev/null
+++ b/test/data/enm/study-FCSV-1e9e9d39-7dd3-38a2-ac56-9b122c02f796.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-1e9e9d39-7dd3-38a2-ac56-9b122c02f796",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.236,
+        "errQualifier": "sd",
+        "errorValue": 0.405
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1f208af0-2bca-3d4c-8fe2-5c0f0e1dba19.json b/test/data/enm/study-FCSV-1f208af0-2bca-3d4c-8fe2-5c0f0e1dba19.json
new file mode 100644
index 0000000..f8178cd
--- /dev/null
+++ b/test/data/enm/study-FCSV-1f208af0-2bca-3d4c-8fe2-5c0f0e1dba19.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-1f208af0-2bca-3d4c-8fe2-5c0f0e1dba19",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 104.26,
+        "errQualifier": "sd",
+        "errorValue": 9.14
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 100.88,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 103.77,
+        "errQualifier": "sd",
+        "errorValue": 11.5
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 339.47,
+        "errQualifier": "sd",
+        "errorValue": 351.45
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.24,
+        "errQualifier": "sd",
+        "errorValue": 10.54
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.67,
+        "errQualifier": "sd",
+        "errorValue": 2.24
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.24,
+        "errQualifier": "sd",
+        "errorValue": 10.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124.24,
+        "errQualifier": "sd",
+        "errorValue": 26.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1f585c98-88b3-3106-824e-af3900143cde.json b/test/data/enm/study-FCSV-1f585c98-88b3-3106-824e-af3900143cde.json
new file mode 100644
index 0000000..6a5beae
--- /dev/null
+++ b/test/data/enm/study-FCSV-1f585c98-88b3-3106-824e-af3900143cde.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-1f585c98-88b3-3106-824e-af3900143cde",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1f5886c8-1a6b-323f-a152-181be4c85e20.json b/test/data/enm/study-FCSV-1f5886c8-1a6b-323f-a152-181be4c85e20.json
new file mode 100644
index 0000000..3a9e4df
--- /dev/null
+++ b/test/data/enm/study-FCSV-1f5886c8-1a6b-323f-a152-181be4c85e20.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-1f5886c8-1a6b-323f-a152-181be4c85e20",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1f698fc0-56ae-3de3-b6b6-2219d6dac8bd.json b/test/data/enm/study-FCSV-1f698fc0-56ae-3de3-b6b6-2219d6dac8bd.json
new file mode 100644
index 0000000..5dfb9a6
--- /dev/null
+++ b/test/data/enm/study-FCSV-1f698fc0-56ae-3de3-b6b6-2219d6dac8bd.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-1f698fc0-56ae-3de3-b6b6-2219d6dac8bd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 86.9,
+        "errQualifier": "sd",
+        "errorValue": 0.72
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 114.53,
+        "errQualifier": "sd",
+        "errorValue": 17.85
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.22,
+        "errQualifier": "sd",
+        "errorValue": 19.88
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 114.42,
+        "errQualifier": "sd",
+        "errorValue": 31.9
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 96.47,
+        "errQualifier": "sd",
+        "errorValue": 15.21
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 92.27,
+        "errQualifier": "sd",
+        "errorValue": 20.98
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 96.47,
+        "errQualifier": "sd",
+        "errorValue": 3.5
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124.7,
+        "errQualifier": "sd",
+        "errorValue": 21.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1f844a64-a184-3f67-9656-d91bb4e97100.json b/test/data/enm/study-FCSV-1f844a64-a184-3f67-9656-d91bb4e97100.json
new file mode 100644
index 0000000..a66ee37
--- /dev/null
+++ b/test/data/enm/study-FCSV-1f844a64-a184-3f67-9656-d91bb4e97100.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-1f844a64-a184-3f67-9656-d91bb4e97100",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.136,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.156,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2014180e-540b-3476-896e-9b0f4d634fed.json b/test/data/enm/study-FCSV-2014180e-540b-3476-896e-9b0f4d634fed.json
new file mode 100644
index 0000000..c3a66a5
--- /dev/null
+++ b/test/data/enm/study-FCSV-2014180e-540b-3476-896e-9b0f4d634fed.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2014180e-540b-3476-896e-9b0f4d634fed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.024,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.401,
+        "errQualifier": "std",
+        "errorValue": 0.809
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-202df90a-3d0c-3b1b-9d14-696425f90097.json b/test/data/enm/study-FCSV-202df90a-3d0c-3b1b-9d14-696425f90097.json
new file mode 100644
index 0000000..8ae742a
--- /dev/null
+++ b/test/data/enm/study-FCSV-202df90a-3d0c-3b1b-9d14-696425f90097.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-202df90a-3d0c-3b1b-9d14-696425f90097",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 603.66,
+        "errQualifier": "sd",
+        "errorValue": 65.835
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.052
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-203eaa51-2c23-3445-84a8-8186db421474.json b/test/data/enm/study-FCSV-203eaa51-2c23-3445-84a8-8186db421474.json
new file mode 100644
index 0000000..a8b21ae
--- /dev/null
+++ b/test/data/enm/study-FCSV-203eaa51-2c23-3445-84a8-8186db421474.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-203eaa51-2c23-3445-84a8-8186db421474",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.58,
+        "errQualifier": "sd",
+        "errorValue": 1.26
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 60.27,
+        "errQualifier": "sd",
+        "errorValue": 6.12
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.67,
+        "errQualifier": "sd",
+        "errorValue": 0.95
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.24,
+        "errQualifier": "sd",
+        "errorValue": 11.9
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.16,
+        "errQualifier": "sd",
+        "errorValue": 0.78
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.93,
+        "errQualifier": "sd",
+        "errorValue": 11.73
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.16,
+        "errQualifier": "sd",
+        "errorValue": 0.67
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.13,
+        "errQualifier": "sd",
+        "errorValue": 9.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2056b6d4-b2b6-33dd-85bd-1b778c1e9f22.json b/test/data/enm/study-FCSV-2056b6d4-b2b6-33dd-85bd-1b778c1e9f22.json
new file mode 100644
index 0000000..e7e9360
--- /dev/null
+++ b/test/data/enm/study-FCSV-2056b6d4-b2b6-33dd-85bd-1b778c1e9f22.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-2056b6d4-b2b6-33dd-85bd-1b778c1e9f22",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-20791a10-de3a-33d5-b693-f330cf6986aa.json b/test/data/enm/study-FCSV-20791a10-de3a-33d5-b693-f330cf6986aa.json
new file mode 100644
index 0000000..33398fe
--- /dev/null
+++ b/test/data/enm/study-FCSV-20791a10-de3a-33d5-b693-f330cf6986aa.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-20791a10-de3a-33d5-b693-f330cf6986aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":40\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":10\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":17\n}\n,\"P01009\":{\n\t\"loValue\":20\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":3\n}\n,\"P01024\":{\n\t\"loValue\":102\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":2\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":1\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":19\n}\n,\"P01857\":{\n\t\"loValue\":16\n}\n,\"P01859\":{\n\t\"loValue\":6\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":31\n}\n,\"P01876\":{\n\t\"loValue\":10\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":59\n}\n,\"P02649\":{\n\t\"loValue\":59\n}\n,\"P02652\":{\n\t\"loValue\":22\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":11\n}\n,\"P02656\":{\n\t\"loValue\":22\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":33\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":11\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":3\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":21\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":305\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":2\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":5\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":34\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":21\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":122\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":5\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":13\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":4\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":39\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":7\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":19\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":2\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":7\n}\n,\"P69905\":{\n\t\"loValue\":4\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":6\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":7\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":13\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":1\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":2\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-207fbb9d-8d7a-31a7-adbb-944d53e0a329.json b/test/data/enm/study-FCSV-207fbb9d-8d7a-31a7-adbb-944d53e0a329.json
new file mode 100644
index 0000000..5599694
--- /dev/null
+++ b/test/data/enm/study-FCSV-207fbb9d-8d7a-31a7-adbb-944d53e0a329.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-207fbb9d-8d7a-31a7-adbb-944d53e0a329",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 27.94,
+        "errQualifier": "sd",
+        "errorValue": 2.96
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 100.13,
+        "errQualifier": "sd",
+        "errorValue": 35.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 16.05,
+        "errQualifier": "sd",
+        "errorValue": 9.01
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124.61,
+        "errQualifier": "sd",
+        "errorValue": 109.44
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.19,
+        "errQualifier": "sd",
+        "errorValue": 7.99
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.7,
+        "errQualifier": "sd",
+        "errorValue": 3.48
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.19,
+        "errQualifier": "sd",
+        "errorValue": 8.02
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 142.63,
+        "errQualifier": "sd",
+        "errorValue": 3.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-210bda2b-25a0-3d46-98f4-4b9e8325af81.json b/test/data/enm/study-FCSV-210bda2b-25a0-3d46-98f4-4b9e8325af81.json
new file mode 100644
index 0000000..e92426a
--- /dev/null
+++ b/test/data/enm/study-FCSV-210bda2b-25a0-3d46-98f4-4b9e8325af81.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-210bda2b-25a0-3d46-98f4-4b9e8325af81",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-211d6a07-cbc6-34fb-a7a5-fbfc4009fea1.json b/test/data/enm/study-FCSV-211d6a07-cbc6-34fb-a7a5-fbfc4009fea1.json
new file mode 100644
index 0000000..680cc89
--- /dev/null
+++ b/test/data/enm/study-FCSV-211d6a07-cbc6-34fb-a7a5-fbfc4009fea1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-211d6a07-cbc6-34fb-a7a5-fbfc4009fea1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(11-Mercaptoundecyl)-N,N,N-trimethylammonium"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2160c90e-6eae-3e9e-851d-aab98b9960ef.json b/test/data/enm/study-FCSV-2160c90e-6eae-3e9e-851d-aab98b9960ef.json
new file mode 100644
index 0000000..599610c
--- /dev/null
+++ b/test/data/enm/study-FCSV-2160c90e-6eae-3e9e-851d-aab98b9960ef.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-2160c90e-6eae-3e9e-851d-aab98b9960ef",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2167b05d-e4de-35f6-9078-08c5a60b7615.json b/test/data/enm/study-FCSV-2167b05d-e4de-35f6-9078-08c5a60b7615.json
new file mode 100644
index 0000000..9119aea
--- /dev/null
+++ b/test/data/enm/study-FCSV-2167b05d-e4de-35f6-9078-08c5a60b7615.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-2167b05d-e4de-35f6-9078-08c5a60b7615",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.365,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.39,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.23,
+        "errQualifier": "sd",
+        "errorValue": 0.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-21813cea-ad1e-33a5-a280-3c392e0d89a5.json b/test/data/enm/study-FCSV-21813cea-ad1e-33a5-a280-3c392e0d89a5.json
new file mode 100644
index 0000000..1afbcea
--- /dev/null
+++ b/test/data/enm/study-FCSV-21813cea-ad1e-33a5-a280-3c392e0d89a5.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-21813cea-ad1e-33a5-a280-3c392e0d89a5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.262,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.403,
+        "errQualifier": "sd",
+        "errorValue": 0.044
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.6,
+        "errQualifier": "sd",
+        "errorValue": 0.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-219e6cbf-c0d3-3e37-9336-5d38b83e2561.json b/test/data/enm/study-FCSV-219e6cbf-c0d3-3e37-9336-5d38b83e2561.json
new file mode 100644
index 0000000..1e16063
--- /dev/null
+++ b/test/data/enm/study-FCSV-219e6cbf-c0d3-3e37-9336-5d38b83e2561.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-219e6cbf-c0d3-3e37-9336-5d38b83e2561",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -34.23,
+        "errQualifier": "sd",
+        "errorValue": 1.89
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.26,
+        "errQualifier": "sd",
+        "errorValue": 5.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-22120041-45e4-3557-87c3-9e18b1c2a985.json b/test/data/enm/study-FCSV-22120041-45e4-3557-87c3-9e18b1c2a985.json
new file mode 100644
index 0000000..bd4db92
--- /dev/null
+++ b/test/data/enm/study-FCSV-22120041-45e4-3557-87c3-9e18b1c2a985.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-22120041-45e4-3557-87c3-9e18b1c2a985",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "sodium dodecyl sulfate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2288fe58-1573-3efd-81b9-2539c475d1ae.json b/test/data/enm/study-FCSV-2288fe58-1573-3efd-81b9-2539c475d1ae.json
new file mode 100644
index 0000000..ed5b7a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-2288fe58-1573-3efd-81b9-2539c475d1ae.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2288fe58-1573-3efd-81b9-2539c475d1ae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":22\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":53\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":5\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":24\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":40\n}\n,\"P01009\":{\n\t\"loValue\":17\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":1\n}\n,\"P01024\":{\n\t\"loValue\":213\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":10\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":5\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":44\n}\n,\"P01857\":{\n\t\"loValue\":45\n}\n,\"P01859\":{\n\t\"loValue\":13\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":44\n}\n,\"P01876\":{\n\t\"loValue\":27\n}\n,\"P01877\":{\n\t\"loValue\":5\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":108\n}\n,\"P02649\":{\n\t\"loValue\":78\n}\n,\"P02652\":{\n\t\"loValue\":30\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":7\n}\n,\"P02656\":{\n\t\"loValue\":21\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":3\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":8\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":10\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":2\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":5\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":5\n}\n,\"P04004\":{\n\t\"loValue\":72\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":411\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":2\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":12\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":18\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":2\n}\n,\"P0C0L4\":{\n\t\"loValue\":32\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":150\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":7\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":28\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":36\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":2\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":8\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":23\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":7\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":8\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-22b70a1b-f42c-3516-9104-c6514dea801d.json b/test/data/enm/study-FCSV-22b70a1b-f42c-3516-9104-c6514dea801d.json
new file mode 100644
index 0000000..db85a46
--- /dev/null
+++ b/test/data/enm/study-FCSV-22b70a1b-f42c-3516-9104-c6514dea801d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-22b70a1b-f42c-3516-9104-c6514dea801d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":61\n}\n,\"P00736\":{\n\t\"loValue\":9\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":12\n}\n,\"P00748\":{\n\t\"loValue\":7\n}\n,\"P00751\":{\n\t\"loValue\":21\n}\n,\"P01008\":{\n\t\"loValue\":134\n}\n,\"P01009\":{\n\t\"loValue\":12\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":14\n}\n,\"P01024\":{\n\t\"loValue\":205\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":199\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":1\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":49\n}\n,\"P01857\":{\n\t\"loValue\":41\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":9\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":12\n}\n,\"P01876\":{\n\t\"loValue\":25\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":30\n}\n,\"P02649\":{\n\t\"loValue\":33\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":3\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":8\n}\n,\"P02671\":{\n\t\"loValue\":8\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":4\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":50\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":13\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":5\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":30\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":28\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":62\n}\n,\"P03952\":{\n\t\"loValue\":38\n}\n,\"P04003\":{\n\t\"loValue\":14\n}\n,\"P04004\":{\n\t\"loValue\":54\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":7\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":58\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":4\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":35\n}\n,\"P05155\":{\n\t\"loValue\":7\n}\n,\"P05156\":{\n\t\"loValue\":6\n}\n,\"P05452\":{\n\t\"loValue\":12\n}\n,\"P05546\":{\n\t\"loValue\":8\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":46\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":2\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":12\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":2\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":91\n}\n,\"P08697\":{\n\t\"loValue\":10\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":4\n}\n,\"P0C0L4\":{\n\t\"loValue\":73\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":2\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":19\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":6\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":3\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":11\n}\n,\"P19827\":{\n\t\"loValue\":6\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":1\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":1\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":3\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":5\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":1\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":1\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":18\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":132\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":2\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":1\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":30\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":3\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-22bbb494-8e7c-3e71-8521-fa4835374e6e.json b/test/data/enm/study-FCSV-22bbb494-8e7c-3e71-8521-fa4835374e6e.json
new file mode 100644
index 0000000..5c7500d
--- /dev/null
+++ b/test/data/enm/study-FCSV-22bbb494-8e7c-3e71-8521-fa4835374e6e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-22bbb494-8e7c-3e71-8521-fa4835374e6e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":1\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":2\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":160\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":403\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":5\n}\n,\"P01024\":{\n\t\"loValue\":96\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":26\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":8\n}\n,\"P01857\":{\n\t\"loValue\":4\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":5\n}\n,\"P02649\":{\n\t\"loValue\":134\n}\n,\"P02652\":{\n\t\"loValue\":4\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":159\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":120\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":9\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":19\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":5\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":18\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":39\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":14\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":3\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":1\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":11\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":6\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":5\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":5\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-22cc554a-1080-3f99-9ef2-82cda96423bb.json b/test/data/enm/study-FCSV-22cc554a-1080-3f99-9ef2-82cda96423bb.json
new file mode 100644
index 0000000..fdb4f7d
--- /dev/null
+++ b/test/data/enm/study-FCSV-22cc554a-1080-3f99-9ef2-82cda96423bb.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-22cc554a-1080-3f99-9ef2-82cda96423bb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2329b1e2-5625-3256-ab0a-1e28f86911c6.json b/test/data/enm/study-FCSV-2329b1e2-5625-3256-ab0a-1e28f86911c6.json
new file mode 100644
index 0000000..370ddc2
--- /dev/null
+++ b/test/data/enm/study-FCSV-2329b1e2-5625-3256-ab0a-1e28f86911c6.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-2329b1e2-5625-3256-ab0a-1e28f86911c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.33,
+        "errQualifier": "sd",
+        "errorValue": 5.81
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.91,
+        "errQualifier": "sd",
+        "errorValue": 1.52
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2340ebf4-ff01-3604-8565-f271d1b4423b.json b/test/data/enm/study-FCSV-2340ebf4-ff01-3604-8565-f271d1b4423b.json
new file mode 100644
index 0000000..0f1a627
--- /dev/null
+++ b/test/data/enm/study-FCSV-2340ebf4-ff01-3604-8565-f271d1b4423b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2340ebf4-ff01-3604-8565-f271d1b4423b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":16\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":9\n}\n,\"P00736\":{\n\t\"loValue\":5\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":10\n}\n,\"P00747\":{\n\t\"loValue\":1\n}\n,\"P00748\":{\n\t\"loValue\":12\n}\n,\"P00751\":{\n\t\"loValue\":11\n}\n,\"P01008\":{\n\t\"loValue\":2\n}\n,\"P01009\":{\n\t\"loValue\":11\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":14\n}\n,\"P01024\":{\n\t\"loValue\":146\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":2\n}\n,\"P01042\":{\n\t\"loValue\":150\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":40\n}\n,\"P01857\":{\n\t\"loValue\":46\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":10\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":74\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":21\n}\n,\"P02649\":{\n\t\"loValue\":20\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":26\n}\n,\"P02671\":{\n\t\"loValue\":14\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":17\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":3\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":173\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":11\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":10\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":26\n}\n,\"P03952\":{\n\t\"loValue\":37\n}\n,\"P04003\":{\n\t\"loValue\":23\n}\n,\"P04004\":{\n\t\"loValue\":20\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":7\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":16\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":24\n}\n,\"P05155\":{\n\t\"loValue\":25\n}\n,\"P05156\":{\n\t\"loValue\":1\n}\n,\"P05452\":{\n\t\"loValue\":14\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":57\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":2\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":17\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":138\n}\n,\"P08697\":{\n\t\"loValue\":3\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":3\n}\n,\"P0C0L4\":{\n\t\"loValue\":93\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":1\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":27\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":2\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":2\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":2\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":6\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":1\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":12\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":45\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":124\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":18\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":1\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":1\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":2\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":1\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":1\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-23483f83-4970-311e-b5ec-6b6fbc2ecf99.json b/test/data/enm/study-FCSV-23483f83-4970-311e-b5ec-6b6fbc2ecf99.json
new file mode 100644
index 0000000..d566a5f
--- /dev/null
+++ b/test/data/enm/study-FCSV-23483f83-4970-311e-b5ec-6b6fbc2ecf99.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-23483f83-4970-311e-b5ec-6b6fbc2ecf99",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.215,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.217,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-23563efd-632c-3294-bd64-a5064f50698a.json b/test/data/enm/study-FCSV-23563efd-632c-3294-bd64-a5064f50698a.json
new file mode 100644
index 0000000..958cefb
--- /dev/null
+++ b/test/data/enm/study-FCSV-23563efd-632c-3294-bd64-a5064f50698a.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-23563efd-632c-3294-bd64-a5064f50698a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 77.3,
+        "errQualifier": "sd",
+        "errorValue": 4.18
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 97.68,
+        "errQualifier": "sd",
+        "errorValue": 4.48
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 77.99,
+        "errQualifier": "sd",
+        "errorValue": 12.81
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 129.06,
+        "errQualifier": "sd",
+        "errorValue": 31.43
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 85.01,
+        "errQualifier": "sd",
+        "errorValue": 9.85
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.35,
+        "errQualifier": "sd",
+        "errorValue": 11.5
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 85.01,
+        "errQualifier": "sd",
+        "errorValue": 5.64
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 110.59,
+        "errQualifier": "sd",
+        "errorValue": 6.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-235fc139-1b6f-3ae3-8a85-660a408decdf.json b/test/data/enm/study-FCSV-235fc139-1b6f-3ae3-8a85-660a408decdf.json
new file mode 100644
index 0000000..1288d59
--- /dev/null
+++ b/test/data/enm/study-FCSV-235fc139-1b6f-3ae3-8a85-660a408decdf.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-235fc139-1b6f-3ae3-8a85-660a408decdf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-23c57cad-f686-3f27-b183-58f4f58b75e7.json b/test/data/enm/study-FCSV-23c57cad-f686-3f27-b183-58f4f58b75e7.json
new file mode 100644
index 0000000..ce9c297
--- /dev/null
+++ b/test/data/enm/study-FCSV-23c57cad-f686-3f27-b183-58f4f58b75e7.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-23c57cad-f686-3f27-b183-58f4f58b75e7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 49.97,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 77.26,
+        "errQualifier": "sd",
+        "errorValue": 0.31
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.82,
+        "errQualifier": "sd",
+        "errorValue": 0.47
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 53.22,
+        "errQualifier": "sd",
+        "errorValue": 16.67
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 57.17,
+        "errQualifier": "sd",
+        "errorValue": 0.76
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.48,
+        "errQualifier": "sd",
+        "errorValue": 18.05
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 57.17,
+        "errQualifier": "sd",
+        "errorValue": 1.38
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 84.26,
+        "errQualifier": "sd",
+        "errorValue": 3.79
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-244a1a30-a1ed-3f88-89aa-09b42791af69.json b/test/data/enm/study-FCSV-244a1a30-a1ed-3f88-89aa-09b42791af69.json
new file mode 100644
index 0000000..5b047f2
--- /dev/null
+++ b/test/data/enm/study-FCSV-244a1a30-a1ed-3f88-89aa-09b42791af69.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-244a1a30-a1ed-3f88-89aa-09b42791af69",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.741,
+        "errQualifier": "sd",
+        "errorValue": 0.669
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2496def2-f369-3b77-b5a5-049ca169404d.json b/test/data/enm/study-FCSV-2496def2-f369-3b77-b5a5-049ca169404d.json
new file mode 100644
index 0000000..d46a724
--- /dev/null
+++ b/test/data/enm/study-FCSV-2496def2-f369-3b77-b5a5-049ca169404d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2496def2-f369-3b77-b5a5-049ca169404d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.128,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.97,
+        "errQualifier": "std",
+        "errorValue": 0.098
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-25058778-3240-3eed-bc02-b71ca990441e.json b/test/data/enm/study-FCSV-25058778-3240-3eed-bc02-b71ca990441e.json
new file mode 100644
index 0000000..f716eb5
--- /dev/null
+++ b/test/data/enm/study-FCSV-25058778-3240-3eed-bc02-b71ca990441e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-25058778-3240-3eed-bc02-b71ca990441e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.189,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.214,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-251c1184-bb36-32ea-b605-b4c27348ec21.json b/test/data/enm/study-FCSV-251c1184-bb36-32ea-b605-b4c27348ec21.json
new file mode 100644
index 0000000..a596bf9
--- /dev/null
+++ b/test/data/enm/study-FCSV-251c1184-bb36-32ea-b605-b4c27348ec21.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-251c1184-bb36-32ea-b605-b4c27348ec21",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-251e615d-5280-3b3f-b0a8-df82d29f63a3.json b/test/data/enm/study-FCSV-251e615d-5280-3b3f-b0a8-df82d29f63a3.json
new file mode 100644
index 0000000..9c9153a
--- /dev/null
+++ b/test/data/enm/study-FCSV-251e615d-5280-3b3f-b0a8-df82d29f63a3.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-251e615d-5280-3b3f-b0a8-df82d29f63a3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -13.98,
+        "errQualifier": "sd",
+        "errorValue": 8.89
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.6,
+        "errQualifier": "sd",
+        "errorValue": 2.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-252b6b2f-8cdd-303d-8a9f-19afae8bea9f.json b/test/data/enm/study-FCSV-252b6b2f-8cdd-303d-8a9f-19afae8bea9f.json
new file mode 100644
index 0000000..fb5c543
--- /dev/null
+++ b/test/data/enm/study-FCSV-252b6b2f-8cdd-303d-8a9f-19afae8bea9f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-252b6b2f-8cdd-303d-8a9f-19afae8bea9f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":1\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":1\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":1\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":1\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":1\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":451\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":72\n}\n,\"P00742\":{\n\t\"loValue\":159\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":111\n}\n,\"P01009\":{\n\t\"loValue\":44\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":6\n}\n,\"P01024\":{\n\t\"loValue\":35\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":23\n}\n,\"P01857\":{\n\t\"loValue\":12\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":17\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":87\n}\n,\"P02649\":{\n\t\"loValue\":47\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":9\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":2\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":1\n}\n,\"P02760\":{\n\t\"loValue\":5\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":1\n}\n,\"P02766\":{\n\t\"loValue\":86\n}\n,\"P02774\":{\n\t\"loValue\":3\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":3\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":53\n}\n,\"P04004\":{\n\t\"loValue\":208\n}\n,\"P04070\":{\n\t\"loValue\":58\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":33\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":5\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":2\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":33\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":61\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":5\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":8\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":16\n}\n,\"P08709\":{\n\t\"loValue\":21\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":43\n}\n,\"P0C0L5\":{\n\t\"loValue\":8\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":23\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":23\n}\n,\"P19827\":{\n\t\"loValue\":10\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":3\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":41\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":1\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":1\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":2\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":1\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":4\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":10\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":5\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":41\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":1\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":1\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":4\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":3\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":1\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":10\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":1\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":2\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":3\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-25898b79-92f7-3833-83c3-8093f1ff42d2.json b/test/data/enm/study-FCSV-25898b79-92f7-3833-83c3-8093f1ff42d2.json
new file mode 100644
index 0000000..01854b3
--- /dev/null
+++ b/test/data/enm/study-FCSV-25898b79-92f7-3833-83c3-8093f1ff42d2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-25898b79-92f7-3833-83c3-8093f1ff42d2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.092,
+        "errQualifier": "sd",
+        "errorValue": 0.117
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.436,
+        "errQualifier": "std",
+        "errorValue": 1.823
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-263b03c8-1ce3-3310-a03b-2188c46d920b.json b/test/data/enm/study-FCSV-263b03c8-1ce3-3310-a03b-2188c46d920b.json
new file mode 100644
index 0000000..02cbf1c
--- /dev/null
+++ b/test/data/enm/study-FCSV-263b03c8-1ce3-3310-a03b-2188c46d920b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-263b03c8-1ce3-3310-a03b-2188c46d920b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Bis(p-sulfonatophenyl)phenylphosphine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-266e466b-3943-36db-b23f-4323481f319d.json b/test/data/enm/study-FCSV-266e466b-3943-36db-b23f-4323481f319d.json
new file mode 100644
index 0000000..70c7249
--- /dev/null
+++ b/test/data/enm/study-FCSV-266e466b-3943-36db-b23f-4323481f319d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-266e466b-3943-36db-b23f-4323481f319d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-26bb43bf-11d3-3ced-aff5-d6d4184c6adb.json b/test/data/enm/study-FCSV-26bb43bf-11d3-3ced-aff5-d6d4184c6adb.json
new file mode 100644
index 0000000..95cfbe3
--- /dev/null
+++ b/test/data/enm/study-FCSV-26bb43bf-11d3-3ced-aff5-d6d4184c6adb.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-26bb43bf-11d3-3ced-aff5-d6d4184c6adb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":130\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":4\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":208\n}\n,\"P01009\":{\n\t\"loValue\":6\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":11\n}\n,\"P01024\":{\n\t\"loValue\":101\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":207\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":4\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":17\n}\n,\"P01857\":{\n\t\"loValue\":17\n}\n,\"P01859\":{\n\t\"loValue\":6\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":13\n}\n,\"P01876\":{\n\t\"loValue\":14\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":22\n}\n,\"P02649\":{\n\t\"loValue\":122\n}\n,\"P02652\":{\n\t\"loValue\":10\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":2\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":10\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":5\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":16\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":9\n}\n,\"P03951\":{\n\t\"loValue\":189\n}\n,\"P03952\":{\n\t\"loValue\":23\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":109\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":148\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":18\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":7\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":20\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":4\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":20\n}\n,\"P08697\":{\n\t\"loValue\":4\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":40\n}\n,\"P0C0L5\":{\n\t\"loValue\":6\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":10\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":18\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":4\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":3\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":1\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":1\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":16\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":1\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":1\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":23\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":4\n}\n,\"Q06033\":{\n\t\"loValue\":3\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":33\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":2\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":23\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":6\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":1\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-26c42f29-a869-3e3b-b312-eadf162532a0.json b/test/data/enm/study-FCSV-26c42f29-a869-3e3b-b312-eadf162532a0.json
new file mode 100644
index 0000000..494112c
--- /dev/null
+++ b/test/data/enm/study-FCSV-26c42f29-a869-3e3b-b312-eadf162532a0.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-26c42f29-a869-3e3b-b312-eadf162532a0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 844.364,
+        "errQualifier": "sd",
+        "errorValue": 126.091
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.012
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-27e732d9-9489-3120-a0c6-5f4c87602375.json b/test/data/enm/study-FCSV-27e732d9-9489-3120-a0c6-5f4c87602375.json
new file mode 100644
index 0000000..585b1c2
--- /dev/null
+++ b/test/data/enm/study-FCSV-27e732d9-9489-3120-a0c6-5f4c87602375.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-27e732d9-9489-3120-a0c6-5f4c87602375",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.8,
+        "errQualifier": "sd",
+        "errorValue": 0.56
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 55.98,
+        "errQualifier": "sd",
+        "errorValue": 3.74
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 4.11,
+        "errQualifier": "sd",
+        "errorValue": 5.12
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 221.93,
+        "errQualifier": "sd",
+        "errorValue": 331.85
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.49,
+        "errQualifier": "sd",
+        "errorValue": 4.71
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.25,
+        "errQualifier": "sd",
+        "errorValue": 15.43
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.49,
+        "errQualifier": "sd",
+        "errorValue": 1.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 83.34,
+        "errQualifier": "sd",
+        "errorValue": 26.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2852a2e8-953c-3ad5-9fde-a71dfe4a8aa5.json b/test/data/enm/study-FCSV-2852a2e8-953c-3ad5-9fde-a71dfe4a8aa5.json
new file mode 100644
index 0000000..c34929d
--- /dev/null
+++ b/test/data/enm/study-FCSV-2852a2e8-953c-3ad5-9fde-a71dfe4a8aa5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2852a2e8-953c-3ad5-9fde-a71dfe4a8aa5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":128\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":10\n}\n,\"P00748\":{\n\t\"loValue\":62\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":271\n}\n,\"P01009\":{\n\t\"loValue\":24\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":30\n}\n,\"P01024\":{\n\t\"loValue\":61\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":265\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":14\n}\n,\"P01857\":{\n\t\"loValue\":14\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":11\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":10\n}\n,\"P02649\":{\n\t\"loValue\":56\n}\n,\"P02652\":{\n\t\"loValue\":5\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":3\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":3\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":13\n}\n,\"P03951\":{\n\t\"loValue\":62\n}\n,\"P03952\":{\n\t\"loValue\":42\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":125\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":2\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":250\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":15\n}\n,\"P05155\":{\n\t\"loValue\":34\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":16\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":1\n}\n,\"P08697\":{\n\t\"loValue\":12\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":13\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":1\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":4\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":1\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":3\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":1\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":1\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":3\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":7\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":3\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":33\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":1\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":2\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":18\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":8\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":2\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":6\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2877a6cf-39c2-38bb-9ad3-af3b4e74d4ba.json b/test/data/enm/study-FCSV-2877a6cf-39c2-38bb-9ad3-af3b4e74d4ba.json
new file mode 100644
index 0000000..7ff4643
--- /dev/null
+++ b/test/data/enm/study-FCSV-2877a6cf-39c2-38bb-9ad3-af3b4e74d4ba.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2877a6cf-39c2-38bb-9ad3-af3b4e74d4ba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated poly(L-lysine)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-28b223fb-ecca-3d68-8ba8-813fc73d9a17.json b/test/data/enm/study-FCSV-28b223fb-ecca-3d68-8ba8-813fc73d9a17.json
new file mode 100644
index 0000000..1d1e332
--- /dev/null
+++ b/test/data/enm/study-FCSV-28b223fb-ecca-3d68-8ba8-813fc73d9a17.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-28b223fb-ecca-3d68-8ba8-813fc73d9a17",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-28cc0804-9151-3370-a321-4049d06aa35e.json b/test/data/enm/study-FCSV-28cc0804-9151-3370-a321-4049d06aa35e.json
new file mode 100644
index 0000000..ec78120
--- /dev/null
+++ b/test/data/enm/study-FCSV-28cc0804-9151-3370-a321-4049d06aa35e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-28cc0804-9151-3370-a321-4049d06aa35e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-293c98c9-7112-3ae3-8d88-09a5829dfa1a.json b/test/data/enm/study-FCSV-293c98c9-7112-3ae3-8d88-09a5829dfa1a.json
new file mode 100644
index 0000000..c7b4253
--- /dev/null
+++ b/test/data/enm/study-FCSV-293c98c9-7112-3ae3-8d88-09a5829dfa1a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-293c98c9-7112-3ae3-8d88-09a5829dfa1a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.616,
+        "errQualifier": "sd",
+        "errorValue": 0.947
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-29670742-87c6-342c-8888-1c8994678838.json b/test/data/enm/study-FCSV-29670742-87c6-342c-8888-1c8994678838.json
new file mode 100644
index 0000000..bc082e4
--- /dev/null
+++ b/test/data/enm/study-FCSV-29670742-87c6-342c-8888-1c8994678838.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-29670742-87c6-342c-8888-1c8994678838",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-29c729b9-9975-3f3c-8c91-1f0068c64082.json b/test/data/enm/study-FCSV-29c729b9-9975-3f3c-8c91-1f0068c64082.json
new file mode 100644
index 0000000..9da705e
--- /dev/null
+++ b/test/data/enm/study-FCSV-29c729b9-9975-3f3c-8c91-1f0068c64082.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-29c729b9-9975-3f3c-8c91-1f0068c64082",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.883,
+        "errQualifier": "sd",
+        "errorValue": 1.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2a0a0a9e-5c62-3899-b47b-9e80131727dd.json b/test/data/enm/study-FCSV-2a0a0a9e-5c62-3899-b47b-9e80131727dd.json
new file mode 100644
index 0000000..91d9d05
--- /dev/null
+++ b/test/data/enm/study-FCSV-2a0a0a9e-5c62-3899-b47b-9e80131727dd.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2a0a0a9e-5c62-3899-b47b-9e80131727dd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 249.152,
+        "errQualifier": "sd",
+        "errorValue": 13.149
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2a70de6f-2eb8-3819-8e0d-6c0c53fb1ec2.json b/test/data/enm/study-FCSV-2a70de6f-2eb8-3819-8e0d-6c0c53fb1ec2.json
new file mode 100644
index 0000000..2fc3100
--- /dev/null
+++ b/test/data/enm/study-FCSV-2a70de6f-2eb8-3819-8e0d-6c0c53fb1ec2.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2a70de6f-2eb8-3819-8e0d-6c0c53fb1ec2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 788.037,
+        "errQualifier": "sd",
+        "errorValue": 258.154
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 3
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.058
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2a9b6983-3400-339b-9f12-5e22c6b27c30.json b/test/data/enm/study-FCSV-2a9b6983-3400-339b-9f12-5e22c6b27c30.json
new file mode 100644
index 0000000..faa83c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-2a9b6983-3400-339b-9f12-5e22c6b27c30.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2a9b6983-3400-339b-9f12-5e22c6b27c30",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 655.578,
+        "errQualifier": "sd",
+        "errorValue": 95.371
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.037
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2a9d1f52-4552-3cea-a9b2-6bcd2fac2f94.json b/test/data/enm/study-FCSV-2a9d1f52-4552-3cea-a9b2-6bcd2fac2f94.json
new file mode 100644
index 0000000..eea8675
--- /dev/null
+++ b/test/data/enm/study-FCSV-2a9d1f52-4552-3cea-a9b2-6bcd2fac2f94.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2a9d1f52-4552-3cea-a9b2-6bcd2fac2f94",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 443.841,
+        "errQualifier": "sd",
+        "errorValue": 51.709
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2ac47079-52d2-33b4-997e-cf0f6526faba.json b/test/data/enm/study-FCSV-2ac47079-52d2-33b4-997e-cf0f6526faba.json
new file mode 100644
index 0000000..82df9f3
--- /dev/null
+++ b/test/data/enm/study-FCSV-2ac47079-52d2-33b4-997e-cf0f6526faba.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2ac47079-52d2-33b4-997e-cf0f6526faba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 642.605,
+        "errQualifier": "sd",
+        "errorValue": 49.206
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 118,
+        "errQualifier": "sem",
+        "errorValue": 7.708
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2ace3501-be11-35d8-9591-9d6b9377b914.json b/test/data/enm/study-FCSV-2ace3501-be11-35d8-9591-9d6b9377b914.json
new file mode 100644
index 0000000..94e0d78
--- /dev/null
+++ b/test/data/enm/study-FCSV-2ace3501-be11-35d8-9591-9d6b9377b914.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2ace3501-be11-35d8-9591-9d6b9377b914",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2b00574a-16d4-3994-b0f5-9229a734f1ae.json b/test/data/enm/study-FCSV-2b00574a-16d4-3994-b0f5-9229a734f1ae.json
new file mode 100644
index 0000000..a713801
--- /dev/null
+++ b/test/data/enm/study-FCSV-2b00574a-16d4-3994-b0f5-9229a734f1ae.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2b00574a-16d4-3994-b0f5-9229a734f1ae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "alpha-Lipoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2b161b1d-f3a6-3fa5-8e0e-d136947db558.json b/test/data/enm/study-FCSV-2b161b1d-f3a6-3fa5-8e0e-d136947db558.json
new file mode 100644
index 0000000..0ca5414
--- /dev/null
+++ b/test/data/enm/study-FCSV-2b161b1d-f3a6-3fa5-8e0e-d136947db558.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2b161b1d-f3a6-3fa5-8e0e-d136947db558",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2b2c544c-a8d9-3a75-8c7d-7d405d219800.json b/test/data/enm/study-FCSV-2b2c544c-a8d9-3a75-8c7d-7d405d219800.json
new file mode 100644
index 0000000..45ada12
--- /dev/null
+++ b/test/data/enm/study-FCSV-2b2c544c-a8d9-3a75-8c7d-7d405d219800.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-2b2c544c-a8d9-3a75-8c7d-7d405d219800",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.32,
+        "errQualifier": "sd",
+        "errorValue": 1.52
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 65.4,
+        "errQualifier": "sd",
+        "errorValue": 4.61
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.46,
+        "errQualifier": "sd",
+        "errorValue": 2.79
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65.28,
+        "errQualifier": "sd",
+        "errorValue": 4.05
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.57,
+        "errQualifier": "sd",
+        "errorValue": 2.06
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 62.14,
+        "errQualifier": "sd",
+        "errorValue": 3.55
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.57,
+        "errQualifier": "sd",
+        "errorValue": 4.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.93,
+        "errQualifier": "sd",
+        "errorValue": 4.84
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2b9c255f-5742-3d00-bd5a-95780da4c7ed.json b/test/data/enm/study-FCSV-2b9c255f-5742-3d00-bd5a-95780da4c7ed.json
new file mode 100644
index 0000000..ea8cd25
--- /dev/null
+++ b/test/data/enm/study-FCSV-2b9c255f-5742-3d00-bd5a-95780da4c7ed.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2b9c255f-5742-3d00-bd5a-95780da4c7ed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2c4177e3-09a1-38a1-a0b3-9edc606ab1b0.json b/test/data/enm/study-FCSV-2c4177e3-09a1-38a1-a0b3-9edc606ab1b0.json
new file mode 100644
index 0000000..1571ab1
--- /dev/null
+++ b/test/data/enm/study-FCSV-2c4177e3-09a1-38a1-a0b3-9edc606ab1b0.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-2c4177e3-09a1-38a1-a0b3-9edc606ab1b0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.645,
+        "errQualifier": "sd",
+        "errorValue": 0.471
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2c55fc4a-ed47-3fa3-8594-c6839e0ca647.json b/test/data/enm/study-FCSV-2c55fc4a-ed47-3fa3-8594-c6839e0ca647.json
new file mode 100644
index 0000000..caa8570
--- /dev/null
+++ b/test/data/enm/study-FCSV-2c55fc4a-ed47-3fa3-8594-c6839e0ca647.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-2c55fc4a-ed47-3fa3-8594-c6839e0ca647",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -24.63,
+        "errQualifier": "sd",
+        "errorValue": 1.24
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.09,
+        "errQualifier": "sd",
+        "errorValue": 2.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2cbaa04a-3c89-3d27-84aa-5fa442723502.json b/test/data/enm/study-FCSV-2cbaa04a-3c89-3d27-84aa-5fa442723502.json
new file mode 100644
index 0000000..c66d0fa
--- /dev/null
+++ b/test/data/enm/study-FCSV-2cbaa04a-3c89-3d27-84aa-5fa442723502.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-2cbaa04a-3c89-3d27-84aa-5fa442723502",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 225.611,
+        "errQualifier": "sd",
+        "errorValue": 7.051
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.054
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2cf02ff9-e458-3020-84e9-20fbc6d63465.json b/test/data/enm/study-FCSV-2cf02ff9-e458-3020-84e9-20fbc6d63465.json
new file mode 100644
index 0000000..14c43a9
--- /dev/null
+++ b/test/data/enm/study-FCSV-2cf02ff9-e458-3020-84e9-20fbc6d63465.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-2cf02ff9-e458-3020-84e9-20fbc6d63465",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2d33eb58-5c9c-385d-a1e0-bb284f63f71e.json b/test/data/enm/study-FCSV-2d33eb58-5c9c-385d-a1e0-bb284f63f71e.json
new file mode 100644
index 0000000..7ebee6b
--- /dev/null
+++ b/test/data/enm/study-FCSV-2d33eb58-5c9c-385d-a1e0-bb284f63f71e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2d33eb58-5c9c-385d-a1e0-bb284f63f71e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.23,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.278,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2d3b1cc7-9d82-38ff-a5ab-87d63b5c78c8.json b/test/data/enm/study-FCSV-2d3b1cc7-9d82-38ff-a5ab-87d63b5c78c8.json
new file mode 100644
index 0000000..9d02b98
--- /dev/null
+++ b/test/data/enm/study-FCSV-2d3b1cc7-9d82-38ff-a5ab-87d63b5c78c8.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-2d3b1cc7-9d82-38ff-a5ab-87d63b5c78c8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.243,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.292,
+        "errQualifier": "sd",
+        "errorValue": 0.085
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 541.4,
+        "errQualifier": "sd",
+        "errorValue": 1.41
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2d4ac4a6-df6f-366c-99ab-5cb4f3c54d80.json b/test/data/enm/study-FCSV-2d4ac4a6-df6f-366c-99ab-5cb4f3c54d80.json
new file mode 100644
index 0000000..79f7d86
--- /dev/null
+++ b/test/data/enm/study-FCSV-2d4ac4a6-df6f-366c-99ab-5cb4f3c54d80.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-2d4ac4a6-df6f-366c-99ab-5cb4f3c54d80",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.89,
+        "errQualifier": "sd",
+        "errorValue": 6.51
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -4.41,
+        "errQualifier": "sd",
+        "errorValue": 5.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2d550fcb-a1a7-3ecf-b8eb-f6748fd69039.json b/test/data/enm/study-FCSV-2d550fcb-a1a7-3ecf-b8eb-f6748fd69039.json
new file mode 100644
index 0000000..22d9d06
--- /dev/null
+++ b/test/data/enm/study-FCSV-2d550fcb-a1a7-3ecf-b8eb-f6748fd69039.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2d550fcb-a1a7-3ecf-b8eb-f6748fd69039",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.192
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.238,
+        "errQualifier": "sd",
+        "errorValue": 0.045
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2da2770e-d95d-3cdd-aeed-122f7d074240.json b/test/data/enm/study-FCSV-2da2770e-d95d-3cdd-aeed-122f7d074240.json
new file mode 100644
index 0000000..94804f0
--- /dev/null
+++ b/test/data/enm/study-FCSV-2da2770e-d95d-3cdd-aeed-122f7d074240.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-2da2770e-d95d-3cdd-aeed-122f7d074240",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2dad9ec5-ce94-3260-b20a-420ba8e322eb.json b/test/data/enm/study-FCSV-2dad9ec5-ce94-3260-b20a-420ba8e322eb.json
new file mode 100644
index 0000000..6599a07
--- /dev/null
+++ b/test/data/enm/study-FCSV-2dad9ec5-ce94-3260-b20a-420ba8e322eb.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2dad9ec5-ce94-3260-b20a-420ba8e322eb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":35\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":2\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":124\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":3\n}\n,\"P01042\":{\n\t\"loValue\":80\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":13\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":9\n}\n,\"P01876\":{\n\t\"loValue\":13\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":54\n}\n,\"P02649\":{\n\t\"loValue\":67\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":26\n}\n,\"P02655\":{\n\t\"loValue\":11\n}\n,\"P02656\":{\n\t\"loValue\":113\n}\n,\"P02671\":{\n\t\"loValue\":13\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":61\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":58\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":12\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":41\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":17\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":1\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":2\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":8\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":22\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":23\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":119\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":9\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":13\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":6\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":1\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":16\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":70\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":2\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":127\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":3\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":2\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":7\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2dea8469-3f5a-35a1-9028-ee3f873242f6.json b/test/data/enm/study-FCSV-2dea8469-3f5a-35a1-9028-ee3f873242f6.json
new file mode 100644
index 0000000..3e33518
--- /dev/null
+++ b/test/data/enm/study-FCSV-2dea8469-3f5a-35a1-9028-ee3f873242f6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2dea8469-3f5a-35a1-9028-ee3f873242f6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2e0bbe94-3e94-3d10-9a2f-f89aba471c76.json b/test/data/enm/study-FCSV-2e0bbe94-3e94-3d10-9a2f-f89aba471c76.json
new file mode 100644
index 0000000..6fedd1f
--- /dev/null
+++ b/test/data/enm/study-FCSV-2e0bbe94-3e94-3d10-9a2f-f89aba471c76.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2e0bbe94-3e94-3d10-9a2f-f89aba471c76",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.004,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -8.116,
+        "errQualifier": "std",
+        "errorValue": 2.417
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2e11655c-d54d-317f-8c2d-6e3b8c7a7304.json b/test/data/enm/study-FCSV-2e11655c-d54d-317f-8c2d-6e3b8c7a7304.json
new file mode 100644
index 0000000..d9d9709
--- /dev/null
+++ b/test/data/enm/study-FCSV-2e11655c-d54d-317f-8c2d-6e3b8c7a7304.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2e11655c-d54d-317f-8c2d-6e3b8c7a7304",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":1\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":7\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":0\n}\n,\"P01009\":{\n\t\"loValue\":13\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":74\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":23\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":12\n}\n,\"P01857\":{\n\t\"loValue\":10\n}\n,\"P01859\":{\n\t\"loValue\":1\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":5\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":4\n}\n,\"P02652\":{\n\t\"loValue\":3\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":5\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":1\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":2\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":27\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":42\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":1\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":2\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":1\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":1\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":2\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":1\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":10\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":1\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":1\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":4\n}\n,\"Q9P203\":{\n\t\"loValue\":1\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":1\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2e652225-6953-30bf-bfc0-fd1562f1e5c5.json b/test/data/enm/study-FCSV-2e652225-6953-30bf-bfc0-fd1562f1e5c5.json
new file mode 100644
index 0000000..7575a5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-2e652225-6953-30bf-bfc0-fd1562f1e5c5.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-2e652225-6953-30bf-bfc0-fd1562f1e5c5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.602,
+        "errQualifier": "sd",
+        "errorValue": 0.665
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2eb4073a-afc7-37ac-a361-ea02e938471e.json b/test/data/enm/study-FCSV-2eb4073a-afc7-37ac-a361-ea02e938471e.json
new file mode 100644
index 0000000..cfc9f2b
--- /dev/null
+++ b/test/data/enm/study-FCSV-2eb4073a-afc7-37ac-a361-ea02e938471e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2eb4073a-afc7-37ac-a361-ea02e938471e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":1\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":1\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":1\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":5\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":1\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":1\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":536\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":63\n}\n,\"P00742\":{\n\t\"loValue\":110\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":102\n}\n,\"P01009\":{\n\t\"loValue\":47\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":58\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":35\n}\n,\"P01857\":{\n\t\"loValue\":15\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":39\n}\n,\"P01876\":{\n\t\"loValue\":22\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":30\n}\n,\"P02649\":{\n\t\"loValue\":29\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":9\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":5\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":58\n}\n,\"P02774\":{\n\t\"loValue\":3\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":5\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":239\n}\n,\"P04004\":{\n\t\"loValue\":226\n}\n,\"P04070\":{\n\t\"loValue\":53\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":56\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":1\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":3\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":3\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":13\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":121\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":17\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":8\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":18\n}\n,\"P08709\":{\n\t\"loValue\":18\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":130\n}\n,\"P0C0L5\":{\n\t\"loValue\":13\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":19\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":26\n}\n,\"P19827\":{\n\t\"loValue\":14\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":14\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":3\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":46\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":1\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":1\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":9\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":2\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":48\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":3\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":8\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":1\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":1\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":2\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2eb7f4fc-980e-39a7-ad81-137da4447a2d.json b/test/data/enm/study-FCSV-2eb7f4fc-980e-39a7-ad81-137da4447a2d.json
new file mode 100644
index 0000000..7dab122
--- /dev/null
+++ b/test/data/enm/study-FCSV-2eb7f4fc-980e-39a7-ad81-137da4447a2d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-2eb7f4fc-980e-39a7-ad81-137da4447a2d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "11-Amino-1-undecanethiol"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2edccfb9-db9c-371b-a748-f5e1de3bee65.json b/test/data/enm/study-FCSV-2edccfb9-db9c-371b-a748-f5e1de3bee65.json
new file mode 100644
index 0000000..92b9696
--- /dev/null
+++ b/test/data/enm/study-FCSV-2edccfb9-db9c-371b-a748-f5e1de3bee65.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2edccfb9-db9c-371b-a748-f5e1de3bee65",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":22\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":12\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":12\n}\n,\"P00739\":{\n\t\"loValue\":11\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":21\n}\n,\"P01009\":{\n\t\"loValue\":56\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":6\n}\n,\"P01024\":{\n\t\"loValue\":109\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":5\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":2\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":42\n}\n,\"P01857\":{\n\t\"loValue\":28\n}\n,\"P01859\":{\n\t\"loValue\":6\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":33\n}\n,\"P01876\":{\n\t\"loValue\":20\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":50\n}\n,\"P02649\":{\n\t\"loValue\":16\n}\n,\"P02652\":{\n\t\"loValue\":13\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":7\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":4\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":17\n}\n,\"P02774\":{\n\t\"loValue\":2\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":21\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":20\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":320\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":11\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":1\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":2\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":17\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":5\n}\n,\"P08519\":{\n\t\"loValue\":4\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":1\n}\n,\"P0C0L4\":{\n\t\"loValue\":28\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":1\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":25\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":3\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":11\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":1\n}\n,\"P27169\":{\n\t\"loValue\":14\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":14\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":4\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":1\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":3\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":1\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":16\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":2\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":1\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":1\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":1\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":1\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":1\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2ef9a412-3108-3e48-9e60-8574204ab4f7.json b/test/data/enm/study-FCSV-2ef9a412-3108-3e48-9e60-8574204ab4f7.json
new file mode 100644
index 0000000..ed2da5e
--- /dev/null
+++ b/test/data/enm/study-FCSV-2ef9a412-3108-3e48-9e60-8574204ab4f7.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2ef9a412-3108-3e48-9e60-8574204ab4f7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.084,
+        "errQualifier": "sd",
+        "errorValue": 0.035
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.27,
+        "errQualifier": "sd",
+        "errorValue": 0.027
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2f0e67fc-7638-3e12-9ad2-c7bda0b48723.json b/test/data/enm/study-FCSV-2f0e67fc-7638-3e12-9ad2-c7bda0b48723.json
new file mode 100644
index 0000000..11ac99a
--- /dev/null
+++ b/test/data/enm/study-FCSV-2f0e67fc-7638-3e12-9ad2-c7bda0b48723.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-2f0e67fc-7638-3e12-9ad2-c7bda0b48723",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2f136a7d-6d7b-3ad9-9a7d-725611579a1c.json b/test/data/enm/study-FCSV-2f136a7d-6d7b-3ad9-9a7d-725611579a1c.json
new file mode 100644
index 0000000..8916ad4
--- /dev/null
+++ b/test/data/enm/study-FCSV-2f136a7d-6d7b-3ad9-9a7d-725611579a1c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-2f136a7d-6d7b-3ad9-9a7d-725611579a1c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.314,
+        "errQualifier": "sd",
+        "errorValue": 0.276
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.34,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2f8cb6f0-a503-3640-b9b9-e29edb3703ed.json b/test/data/enm/study-FCSV-2f8cb6f0-a503-3640-b9b9-e29edb3703ed.json
new file mode 100644
index 0000000..fa3c816
--- /dev/null
+++ b/test/data/enm/study-FCSV-2f8cb6f0-a503-3640-b9b9-e29edb3703ed.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-2f8cb6f0-a503-3640-b9b9-e29edb3703ed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":18\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":7\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":5\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":5\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":5\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":8\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":49\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":136\n}\n,\"P01009\":{\n\t\"loValue\":16\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":33\n}\n,\"P01024\":{\n\t\"loValue\":100\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":154\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":1\n}\n,\"P01610\":{\n\t\"loValue\":2\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":1\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":8\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":4\n}\n,\"P01781\":{\n\t\"loValue\":1\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":43\n}\n,\"P01859\":{\n\t\"loValue\":32\n}\n,\"P01860\":{\n\t\"loValue\":11\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":49\n}\n,\"P01876\":{\n\t\"loValue\":40\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":10\n}\n,\"P02649\":{\n\t\"loValue\":16\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":4\n}\n,\"P02671\":{\n\t\"loValue\":3\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":13\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":7\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":5\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":75\n}\n,\"P03952\":{\n\t\"loValue\":50\n}\n,\"P04003\":{\n\t\"loValue\":5\n}\n,\"P04004\":{\n\t\"loValue\":40\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":2\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":49\n}\n,\"P04206\":{\n\t\"loValue\":1\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":28\n}\n,\"P05155\":{\n\t\"loValue\":11\n}\n,\"P05156\":{\n\t\"loValue\":2\n}\n,\"P05452\":{\n\t\"loValue\":1\n}\n,\"P05546\":{\n\t\"loValue\":4\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":1\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":29\n}\n,\"P08697\":{\n\t\"loValue\":6\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":61\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":19\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":1\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":37\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":5\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":1\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":33\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":1\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":27\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":21\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":17\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":7\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":7\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":241\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":31\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":3\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":1\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":33\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":1\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2fa8ff94-819e-3457-8b60-5e7d705091be.json b/test/data/enm/study-FCSV-2fa8ff94-819e-3457-8b60-5e7d705091be.json
new file mode 100644
index 0000000..93d548a
--- /dev/null
+++ b/test/data/enm/study-FCSV-2fa8ff94-819e-3457-8b60-5e7d705091be.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-2fa8ff94-819e-3457-8b60-5e7d705091be",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.16,
+        "errQualifier": "sd",
+        "errorValue": 1.4
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 57.28,
+        "errQualifier": "sd",
+        "errorValue": 5.05
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.7,
+        "errQualifier": "sd",
+        "errorValue": 0.96
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.73,
+        "errQualifier": "sd",
+        "errorValue": 15.55
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.48,
+        "errQualifier": "sd",
+        "errorValue": 1.22
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.32,
+        "errQualifier": "sd",
+        "errorValue": 10.73
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.48,
+        "errQualifier": "sd",
+        "errorValue": 1.75
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73.94,
+        "errQualifier": "sd",
+        "errorValue": 9.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-303e5e60-796c-3a71-ab32-b28e134e2e50.json b/test/data/enm/study-FCSV-303e5e60-796c-3a71-ab32-b28e134e2e50.json
new file mode 100644
index 0000000..b88cee6
--- /dev/null
+++ b/test/data/enm/study-FCSV-303e5e60-796c-3a71-ab32-b28e134e2e50.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-303e5e60-796c-3a71-ab32-b28e134e2e50",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.005,
+        "errQualifier": "sd",
+        "errorValue": 0.00067
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.59,
+        "errQualifier": "std",
+        "errorValue": 0.185
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-30563653-53c0-315f-86cb-717e47ee99e5.json b/test/data/enm/study-FCSV-30563653-53c0-315f-86cb-717e47ee99e5.json
new file mode 100644
index 0000000..60e4891
--- /dev/null
+++ b/test/data/enm/study-FCSV-30563653-53c0-315f-86cb-717e47ee99e5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-30563653-53c0-315f-86cb-717e47ee99e5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-30716102-dc07-3080-9270-5f23e7fa7379.json b/test/data/enm/study-FCSV-30716102-dc07-3080-9270-5f23e7fa7379.json
new file mode 100644
index 0000000..c2ccb9d
--- /dev/null
+++ b/test/data/enm/study-FCSV-30716102-dc07-3080-9270-5f23e7fa7379.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-30716102-dc07-3080-9270-5f23e7fa7379",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.218,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.22,
+        "errQualifier": "sd",
+        "errorValue": 0.0008275
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 525.33,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-308b14eb-0a74-38df-8389-232372ac7fc0.json b/test/data/enm/study-FCSV-308b14eb-0a74-38df-8389-232372ac7fc0.json
new file mode 100644
index 0000000..df1f080
--- /dev/null
+++ b/test/data/enm/study-FCSV-308b14eb-0a74-38df-8389-232372ac7fc0.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-308b14eb-0a74-38df-8389-232372ac7fc0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-309d9507-c283-3e88-90c4-499ee3affc48.json b/test/data/enm/study-FCSV-309d9507-c283-3e88-90c4-499ee3affc48.json
new file mode 100644
index 0000000..f42534c
--- /dev/null
+++ b/test/data/enm/study-FCSV-309d9507-c283-3e88-90c4-499ee3affc48.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-309d9507-c283-3e88-90c4-499ee3affc48",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 67.59,
+        "errQualifier": "sd",
+        "errorValue": 3.81
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 107.61,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 66.21,
+        "errQualifier": "sd",
+        "errorValue": 4.54
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 435.13,
+        "errQualifier": "sd",
+        "errorValue": 401.5
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 71.74,
+        "errQualifier": "sd",
+        "errorValue": 4.55
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 99.19,
+        "errQualifier": "sd",
+        "errorValue": 0.34
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 71.74,
+        "errQualifier": "sd",
+        "errorValue": 4.43
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 132.73,
+        "errQualifier": "sd",
+        "errorValue": 22.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-30d9a12b-9076-34f5-8936-6c29e67ef2c6.json b/test/data/enm/study-FCSV-30d9a12b-9076-34f5-8936-6c29e67ef2c6.json
new file mode 100644
index 0000000..0eef1ec
--- /dev/null
+++ b/test/data/enm/study-FCSV-30d9a12b-9076-34f5-8936-6c29e67ef2c6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-30d9a12b-9076-34f5-8936-6c29e67ef2c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "11-Amino-1-undecanethiol"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-310eef2b-3013-3bd0-a05f-c71e858f82dc.json b/test/data/enm/study-FCSV-310eef2b-3013-3bd0-a05f-c71e858f82dc.json
new file mode 100644
index 0000000..dbb0f79
--- /dev/null
+++ b/test/data/enm/study-FCSV-310eef2b-3013-3bd0-a05f-c71e858f82dc.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-310eef2b-3013-3bd0-a05f-c71e858f82dc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 192.686,
+        "errQualifier": "sd",
+        "errorValue": 98.103
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 4
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.037
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3129c5f7-16ff-3a56-be4b-c7716c529b8a.json b/test/data/enm/study-FCSV-3129c5f7-16ff-3a56-be4b-c7716c529b8a.json
new file mode 100644
index 0000000..57fed93
--- /dev/null
+++ b/test/data/enm/study-FCSV-3129c5f7-16ff-3a56-be4b-c7716c529b8a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3129c5f7-16ff-3a56-be4b-c7716c529b8a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":235\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":41\n}\n,\"P00742\":{\n\t\"loValue\":108\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":5\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":177\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":33\n}\n,\"P01024\":{\n\t\"loValue\":161\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":362\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":1\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":32\n}\n,\"P01857\":{\n\t\"loValue\":21\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":18\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":80\n}\n,\"P02652\":{\n\t\"loValue\":13\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":11\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":1\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":5\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":3\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":12\n}\n,\"P03951\":{\n\t\"loValue\":206\n}\n,\"P03952\":{\n\t\"loValue\":56\n}\n,\"P04003\":{\n\t\"loValue\":21\n}\n,\"P04004\":{\n\t\"loValue\":156\n}\n,\"P04070\":{\n\t\"loValue\":24\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":98\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":1\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":23\n}\n,\"P05155\":{\n\t\"loValue\":11\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":19\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":51\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":3\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":16\n}\n,\"P08697\":{\n\t\"loValue\":2\n}\n,\"P08709\":{\n\t\"loValue\":31\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":70\n}\n,\"P0C0L5\":{\n\t\"loValue\":6\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":4\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":10\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":6\n}\n,\"P22891\":{\n\t\"loValue\":10\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":8\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":6\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":2\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":2\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":6\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":4\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":53\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":1\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":1\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":2\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":21\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":2\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":8\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":4\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":7\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-31328940-3cd8-375f-b624-379758b9034e.json b/test/data/enm/study-FCSV-31328940-3cd8-375f-b624-379758b9034e.json
new file mode 100644
index 0000000..0ec7ed9
--- /dev/null
+++ b/test/data/enm/study-FCSV-31328940-3cd8-375f-b624-379758b9034e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-31328940-3cd8-375f-b624-379758b9034e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Stearic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3140ce3a-2d98-3024-b606-c98d22e2d492.json b/test/data/enm/study-FCSV-3140ce3a-2d98-3024-b606-c98d22e2d492.json
new file mode 100644
index 0000000..990b1b3
--- /dev/null
+++ b/test/data/enm/study-FCSV-3140ce3a-2d98-3024-b606-c98d22e2d492.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-3140ce3a-2d98-3024-b606-c98d22e2d492",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.286,
+        "errQualifier": "sd",
+        "errorValue": 0.241
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3147052d-43f3-309c-b1e6-cf680f0e3445.json b/test/data/enm/study-FCSV-3147052d-43f3-309c-b1e6-cf680f0e3445.json
new file mode 100644
index 0000000..68cac78
--- /dev/null
+++ b/test/data/enm/study-FCSV-3147052d-43f3-309c-b1e6-cf680f0e3445.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3147052d-43f3-309c-b1e6-cf680f0e3445",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":13\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":3\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":1\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":9\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":2\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":55\n}\n,\"P00736\":{\n\t\"loValue\":12\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":9\n}\n,\"P00747\":{\n\t\"loValue\":6\n}\n,\"P00748\":{\n\t\"loValue\":9\n}\n,\"P00751\":{\n\t\"loValue\":11\n}\n,\"P01008\":{\n\t\"loValue\":135\n}\n,\"P01009\":{\n\t\"loValue\":22\n}\n,\"P01011\":{\n\t\"loValue\":8\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":38\n}\n,\"P01024\":{\n\t\"loValue\":192\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":133\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":36\n}\n,\"P01857\":{\n\t\"loValue\":30\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":11\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":31\n}\n,\"P01876\":{\n\t\"loValue\":56\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":60\n}\n,\"P02649\":{\n\t\"loValue\":42\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":12\n}\n,\"P02655\":{\n\t\"loValue\":6\n}\n,\"P02656\":{\n\t\"loValue\":23\n}\n,\"P02671\":{\n\t\"loValue\":20\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":18\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":2\n}\n,\"P02747\":{\n\t\"loValue\":2\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":66\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":8\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":7\n}\n,\"P02775\":{\n\t\"loValue\":10\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":59\n}\n,\"P03952\":{\n\t\"loValue\":34\n}\n,\"P04003\":{\n\t\"loValue\":15\n}\n,\"P04004\":{\n\t\"loValue\":49\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":12\n}\n,\"P04180\":{\n\t\"loValue\":2\n}\n,\"P04196\":{\n\t\"loValue\":42\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":1\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":44\n}\n,\"P05155\":{\n\t\"loValue\":30\n}\n,\"P05156\":{\n\t\"loValue\":4\n}\n,\"P05452\":{\n\t\"loValue\":13\n}\n,\"P05546\":{\n\t\"loValue\":3\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":52\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":27\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":102\n}\n,\"P08697\":{\n\t\"loValue\":11\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":5\n}\n,\"P0C0L4\":{\n\t\"loValue\":94\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":16\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":2\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":53\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":2\n}\n,\"P18065\":{\n\t\"loValue\":7\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":14\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":5\n}\n,\"P19827\":{\n\t\"loValue\":2\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":5\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":2\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":17\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":2\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":2\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":22\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":2\n}\n,\"P39060\":{\n\t\"loValue\":3\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":1\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":17\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":11\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":2\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":11\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":2\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":255\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":56\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":2\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":6\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-31653c7e-9974-387d-8a3f-5629a8d8370f.json b/test/data/enm/study-FCSV-31653c7e-9974-387d-8a3f-5629a8d8370f.json
new file mode 100644
index 0000000..dd157a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-31653c7e-9974-387d-8a3f-5629a8d8370f.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-31653c7e-9974-387d-8a3f-5629a8d8370f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.164,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.261,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-32575e9a-d73e-31c0-94f1-f00cc2809ab3.json b/test/data/enm/study-FCSV-32575e9a-d73e-31c0-94f1-f00cc2809ab3.json
new file mode 100644
index 0000000..ab2df72
--- /dev/null
+++ b/test/data/enm/study-FCSV-32575e9a-d73e-31c0-94f1-f00cc2809ab3.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-32575e9a-d73e-31c0-94f1-f00cc2809ab3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.84,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.01,
+        "errQualifier": "sd",
+        "errorValue": 1.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-326b3c14-34f2-32a0-8ebb-fe8252278d9a.json b/test/data/enm/study-FCSV-326b3c14-34f2-32a0-8ebb-fe8252278d9a.json
new file mode 100644
index 0000000..dd83d58
--- /dev/null
+++ b/test/data/enm/study-FCSV-326b3c14-34f2-32a0-8ebb-fe8252278d9a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-326b3c14-34f2-32a0-8ebb-fe8252278d9a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.361,
+        "errQualifier": "sd",
+        "errorValue": 0.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-32a9db90-cd4f-3151-ad31-28d1cc855785.json b/test/data/enm/study-FCSV-32a9db90-cd4f-3151-ad31-28d1cc855785.json
new file mode 100644
index 0000000..04d31d0
--- /dev/null
+++ b/test/data/enm/study-FCSV-32a9db90-cd4f-3151-ad31-28d1cc855785.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-32a9db90-cd4f-3151-ad31-28d1cc855785",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.094,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.098,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-32c29be0-4d2e-3bc8-982a-a9cb76487af3.json b/test/data/enm/study-FCSV-32c29be0-4d2e-3bc8-982a-a9cb76487af3.json
new file mode 100644
index 0000000..a22af0f
--- /dev/null
+++ b/test/data/enm/study-FCSV-32c29be0-4d2e-3bc8-982a-a9cb76487af3.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-32c29be0-4d2e-3bc8-982a-a9cb76487af3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 255.452,
+        "errQualifier": "sd",
+        "errorValue": 7.199
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-32ce5bc5-be2a-3752-9855-069ec49604ea.json b/test/data/enm/study-FCSV-32ce5bc5-be2a-3752-9855-069ec49604ea.json
new file mode 100644
index 0000000..b4b566a
--- /dev/null
+++ b/test/data/enm/study-FCSV-32ce5bc5-be2a-3752-9855-069ec49604ea.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-32ce5bc5-be2a-3752-9855-069ec49604ea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.737,
+        "errQualifier": "sd",
+        "errorValue": 0.454
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.441,
+        "errQualifier": "std",
+        "errorValue": 0.889
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-32fad4f1-aa62-38b6-ab58-d0fe7506ede2.json b/test/data/enm/study-FCSV-32fad4f1-aa62-38b6-ab58-d0fe7506ede2.json
new file mode 100644
index 0000000..9f35541
--- /dev/null
+++ b/test/data/enm/study-FCSV-32fad4f1-aa62-38b6-ab58-d0fe7506ede2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-32fad4f1-aa62-38b6-ab58-d0fe7506ede2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.068,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.058,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3348c642-8804-3b02-afec-62a4463769c2.json b/test/data/enm/study-FCSV-3348c642-8804-3b02-afec-62a4463769c2.json
new file mode 100644
index 0000000..322c767
--- /dev/null
+++ b/test/data/enm/study-FCSV-3348c642-8804-3b02-afec-62a4463769c2.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-3348c642-8804-3b02-afec-62a4463769c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.259,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.296,
+        "errQualifier": "sd",
+        "errorValue": 0.037
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.53,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3354872b-6d77-3c5a-bf6c-c9eccadd0237.json b/test/data/enm/study-FCSV-3354872b-6d77-3c5a-bf6c-c9eccadd0237.json
new file mode 100644
index 0000000..eaa4b13
--- /dev/null
+++ b/test/data/enm/study-FCSV-3354872b-6d77-3c5a-bf6c-c9eccadd0237.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3354872b-6d77-3c5a-bf6c-c9eccadd0237",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":3\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":4\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":12\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":27\n}\n,\"P00736\":{\n\t\"loValue\":2\n}\n,\"P00738\":{\n\t\"loValue\":25\n}\n,\"P00739\":{\n\t\"loValue\":17\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":29\n}\n,\"P01009\":{\n\t\"loValue\":71\n}\n,\"P01011\":{\n\t\"loValue\":10\n}\n,\"P01019\":{\n\t\"loValue\":12\n}\n,\"P01023\":{\n\t\"loValue\":111\n}\n,\"P01024\":{\n\t\"loValue\":71\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":16\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":37\n}\n,\"P01857\":{\n\t\"loValue\":39\n}\n,\"P01859\":{\n\t\"loValue\":13\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":6\n}\n,\"P01871\":{\n\t\"loValue\":24\n}\n,\"P01876\":{\n\t\"loValue\":24\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":25\n}\n,\"P02649\":{\n\t\"loValue\":7\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":1\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":55\n}\n,\"P02763\":{\n\t\"loValue\":11\n}\n,\"P02765\":{\n\t\"loValue\":4\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":14\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":51\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":6\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":24\n}\n,\"P04004\":{\n\t\"loValue\":44\n}\n,\"P04070\":{\n\t\"loValue\":4\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":7\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":9\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":3\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":11\n}\n,\"P05155\":{\n\t\"loValue\":18\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":1\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":5\n}\n,\"P08697\":{\n\t\"loValue\":31\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":101\n}\n,\"P0C0L5\":{\n\t\"loValue\":7\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":1\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":11\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":13\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":2\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":2\n}\n,\"P16112\":{\n\t\"loValue\":3\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":119\n}\n,\"P19827\":{\n\t\"loValue\":143\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":1\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":4\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":3\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":2\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":4\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":19\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":2\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":1\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":111\n}\n,\"Q07507\":{\n\t\"loValue\":6\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":10\n}\n,\"Q09472\":{\n\t\"loValue\":1\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":9\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":4\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":3\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":218\n}\n,\"Q14624\":{\n\t\"loValue\":16\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":1\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":1\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":4\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":1\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-337595e5-fd70-3200-8c5b-c4698830f585.json b/test/data/enm/study-FCSV-337595e5-fd70-3200-8c5b-c4698830f585.json
new file mode 100644
index 0000000..a74fa20
--- /dev/null
+++ b/test/data/enm/study-FCSV-337595e5-fd70-3200-8c5b-c4698830f585.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-337595e5-fd70-3200-8c5b-c4698830f585",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.122,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.146,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-338d0253-a7ff-39fc-97c7-2b6230ffc5fd.json b/test/data/enm/study-FCSV-338d0253-a7ff-39fc-97c7-2b6230ffc5fd.json
new file mode 100644
index 0000000..032843a
--- /dev/null
+++ b/test/data/enm/study-FCSV-338d0253-a7ff-39fc-97c7-2b6230ffc5fd.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-338d0253-a7ff-39fc-97c7-2b6230ffc5fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.302,
+        "errQualifier": "sd",
+        "errorValue": 0.054
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.37,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34311b70-ef35-3f6a-9716-13f4267d4cad.json b/test/data/enm/study-FCSV-34311b70-ef35-3f6a-9716-13f4267d4cad.json
new file mode 100644
index 0000000..f4e718d
--- /dev/null
+++ b/test/data/enm/study-FCSV-34311b70-ef35-3f6a-9716-13f4267d4cad.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-34311b70-ef35-3f6a-9716-13f4267d4cad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 432.315,
+        "errQualifier": "sd",
+        "errorValue": 3.932
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34595c92-e20a-38df-9add-7fe43da82aae.json b/test/data/enm/study-FCSV-34595c92-e20a-38df-9add-7fe43da82aae.json
new file mode 100644
index 0000000..32124af
--- /dev/null
+++ b/test/data/enm/study-FCSV-34595c92-e20a-38df-9add-7fe43da82aae.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-34595c92-e20a-38df-9add-7fe43da82aae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 15.27,
+        "errQualifier": "sd",
+        "errorValue": 2.74
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.04,
+        "errQualifier": "sd",
+        "errorValue": 1.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3463a70b-8f7c-38a1-a85d-3d815158d416.json b/test/data/enm/study-FCSV-3463a70b-8f7c-38a1-a85d-3d815158d416.json
new file mode 100644
index 0000000..e68b45b
--- /dev/null
+++ b/test/data/enm/study-FCSV-3463a70b-8f7c-38a1-a85d-3d815158d416.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-3463a70b-8f7c-38a1-a85d-3d815158d416",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.12,
+        "errQualifier": "sd",
+        "errorValue": 3.4
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.78,
+        "errQualifier": "sd",
+        "errorValue": 12
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 6.45,
+        "errQualifier": "sd",
+        "errorValue": 8.89
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 13.09,
+        "errQualifier": "sd",
+        "errorValue": 12.62
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.1,
+        "errQualifier": "sd",
+        "errorValue": 7.74
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10.63,
+        "errQualifier": "sd",
+        "errorValue": 9.68
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.1,
+        "errQualifier": "sd",
+        "errorValue": 2.12
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.43,
+        "errQualifier": "sd",
+        "errorValue": 29.32
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-348323b6-81a8-3746-bfe1-f10e67f5c0ff.json b/test/data/enm/study-FCSV-348323b6-81a8-3746-bfe1-f10e67f5c0ff.json
new file mode 100644
index 0000000..5dfabfd
--- /dev/null
+++ b/test/data/enm/study-FCSV-348323b6-81a8-3746-bfe1-f10e67f5c0ff.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-348323b6-81a8-3746-bfe1-f10e67f5c0ff",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.076,
+        "errQualifier": "sd",
+        "errorValue": 0.042
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.155,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34a07471-b0ab-37e9-ab3a-a413ee36d3cf.json b/test/data/enm/study-FCSV-34a07471-b0ab-37e9-ab3a-a413ee36d3cf.json
new file mode 100644
index 0000000..014a7df
--- /dev/null
+++ b/test/data/enm/study-FCSV-34a07471-b0ab-37e9-ab3a-a413ee36d3cf.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-34a07471-b0ab-37e9-ab3a-a413ee36d3cf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.82,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 71.85,
+        "errQualifier": "sd",
+        "errorValue": 7.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 48.64,
+        "errQualifier": "sd",
+        "errorValue": 4.71
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.38,
+        "errQualifier": "sd",
+        "errorValue": 5.53
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54.06,
+        "errQualifier": "sd",
+        "errorValue": 6.39
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.89,
+        "errQualifier": "sd",
+        "errorValue": 7.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54.06,
+        "errQualifier": "sd",
+        "errorValue": 0.94
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 83.1,
+        "errQualifier": "sd",
+        "errorValue": 10.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34b77ff8-59b6-35ba-9f1c-672b2ab94765.json b/test/data/enm/study-FCSV-34b77ff8-59b6-35ba-9f1c-672b2ab94765.json
new file mode 100644
index 0000000..d31d3ed
--- /dev/null
+++ b/test/data/enm/study-FCSV-34b77ff8-59b6-35ba-9f1c-672b2ab94765.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-34b77ff8-59b6-35ba-9f1c-672b2ab94765",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 40,
+        "errQualifier": "sd",
+        "errorValue": 0.56
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 62.97,
+        "errQualifier": "sd",
+        "errorValue": 1.64
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.59,
+        "errQualifier": "sd",
+        "errorValue": 0.76
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.04,
+        "errQualifier": "sd",
+        "errorValue": 18.95
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.07,
+        "errQualifier": "sd",
+        "errorValue": 0.66
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 37.94,
+        "errQualifier": "sd",
+        "errorValue": 20.72
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.07,
+        "errQualifier": "sd",
+        "errorValue": 1.57
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.55,
+        "errQualifier": "sd",
+        "errorValue": 2.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34be1e93-4ad6-30c7-b131-83effb3ddc60.json b/test/data/enm/study-FCSV-34be1e93-4ad6-30c7-b131-83effb3ddc60.json
new file mode 100644
index 0000000..c6d011e
--- /dev/null
+++ b/test/data/enm/study-FCSV-34be1e93-4ad6-30c7-b131-83effb3ddc60.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-34be1e93-4ad6-30c7-b131-83effb3ddc60",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34be497f-8cdb-36bd-b3e5-3d6d3b4f487a.json b/test/data/enm/study-FCSV-34be497f-8cdb-36bd-b3e5-3d6d3b4f487a.json
new file mode 100644
index 0000000..43b28bf
--- /dev/null
+++ b/test/data/enm/study-FCSV-34be497f-8cdb-36bd-b3e5-3d6d3b4f487a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-34be497f-8cdb-36bd-b3e5-3d6d3b4f487a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":4\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":4\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":1\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":1\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":75\n}\n,\"P00736\":{\n\t\"loValue\":1\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":5\n}\n,\"P00748\":{\n\t\"loValue\":2\n}\n,\"P00751\":{\n\t\"loValue\":12\n}\n,\"P01008\":{\n\t\"loValue\":91\n}\n,\"P01009\":{\n\t\"loValue\":47\n}\n,\"P01011\":{\n\t\"loValue\":5\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":14\n}\n,\"P01024\":{\n\t\"loValue\":175\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":154\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":33\n}\n,\"P01857\":{\n\t\"loValue\":32\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":8\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":36\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":66\n}\n,\"P02649\":{\n\t\"loValue\":39\n}\n,\"P02652\":{\n\t\"loValue\":13\n}\n,\"P02654\":{\n\t\"loValue\":10\n}\n,\"P02655\":{\n\t\"loValue\":10\n}\n,\"P02656\":{\n\t\"loValue\":22\n}\n,\"P02671\":{\n\t\"loValue\":9\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":4\n}\n,\"P02749\":{\n\t\"loValue\":37\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":1\n}\n,\"P02760\":{\n\t\"loValue\":7\n}\n,\"P02763\":{\n\t\"loValue\":2\n}\n,\"P02765\":{\n\t\"loValue\":20\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":13\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":27\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":18\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":106\n}\n,\"P03952\":{\n\t\"loValue\":37\n}\n,\"P04003\":{\n\t\"loValue\":5\n}\n,\"P04004\":{\n\t\"loValue\":60\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":24\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":54\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":4\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":39\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":3\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":7\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":30\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":41\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":1\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":26\n}\n,\"P08697\":{\n\t\"loValue\":13\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":82\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":12\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":21\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":3\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":19\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":21\n}\n,\"P19827\":{\n\t\"loValue\":10\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":2\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":11\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":2\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":9\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":8\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":4\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":2\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":3\n}\n,\"Q14624\":{\n\t\"loValue\":102\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":2\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":62\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":4\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":1\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":2\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-34e85b56-f082-3918-9a82-dfdd2325dd2c.json b/test/data/enm/study-FCSV-34e85b56-f082-3918-9a82-dfdd2325dd2c.json
new file mode 100644
index 0000000..4782a6c
--- /dev/null
+++ b/test/data/enm/study-FCSV-34e85b56-f082-3918-9a82-dfdd2325dd2c.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-34e85b56-f082-3918-9a82-dfdd2325dd2c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 83.89,
+        "errQualifier": "sd",
+        "errorValue": 6.01
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 106.63,
+        "errQualifier": "sd",
+        "errorValue": 0.36
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 261.41,
+        "errQualifier": "sd",
+        "errorValue": 182.42
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 265.6,
+        "errQualifier": "sd",
+        "errorValue": 209.86
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124.01,
+        "errQualifier": "sd",
+        "errorValue": 8.24
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.4,
+        "errQualifier": "sd",
+        "errorValue": 4.41
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124.01,
+        "errQualifier": "sd",
+        "errorValue": 31.9
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 138.23,
+        "errQualifier": "sd",
+        "errorValue": 8.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-350b27d4-6e01-330b-b2a8-a70a2b5f3e8c.json b/test/data/enm/study-FCSV-350b27d4-6e01-330b-b2a8-a70a2b5f3e8c.json
new file mode 100644
index 0000000..b6bbbb5
--- /dev/null
+++ b/test/data/enm/study-FCSV-350b27d4-6e01-330b-b2a8-a70a2b5f3e8c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-350b27d4-6e01-330b-b2a8-a70a2b5f3e8c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.092,
+        "errQualifier": "sd",
+        "errorValue": 0.02
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.095,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3551b393-919c-383f-9dff-9b4bad8411d8.json b/test/data/enm/study-FCSV-3551b393-919c-383f-9dff-9b4bad8411d8.json
new file mode 100644
index 0000000..c56d9f4
--- /dev/null
+++ b/test/data/enm/study-FCSV-3551b393-919c-383f-9dff-9b4bad8411d8.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3551b393-919c-383f-9dff-9b4bad8411d8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 753.038,
+        "errQualifier": "sd",
+        "errorValue": 0.668
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.035
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-356a054f-90f0-3a19-8250-dbd4b5deafd2.json b/test/data/enm/study-FCSV-356a054f-90f0-3a19-8250-dbd4b5deafd2.json
new file mode 100644
index 0000000..01e1851
--- /dev/null
+++ b/test/data/enm/study-FCSV-356a054f-90f0-3a19-8250-dbd4b5deafd2.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-356a054f-90f0-3a19-8250-dbd4b5deafd2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.322,
+        "errQualifier": "sd",
+        "errorValue": 0.02
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.351,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 524.93,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-35e29236-a0af-38fb-a040-fd9c097c43ef.json b/test/data/enm/study-FCSV-35e29236-a0af-38fb-a040-fd9c097c43ef.json
new file mode 100644
index 0000000..01f61bc
--- /dev/null
+++ b/test/data/enm/study-FCSV-35e29236-a0af-38fb-a040-fd9c097c43ef.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-35e29236-a0af-38fb-a040-fd9c097c43ef",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "11-Mercaptoundecanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-35ee126a-bf1b-3fc8-a790-9f0ba9e59fda.json b/test/data/enm/study-FCSV-35ee126a-bf1b-3fc8-a790-9f0ba9e59fda.json
new file mode 100644
index 0000000..2bd0c55
--- /dev/null
+++ b/test/data/enm/study-FCSV-35ee126a-bf1b-3fc8-a790-9f0ba9e59fda.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-35ee126a-bf1b-3fc8-a790-9f0ba9e59fda",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-35f8857a-06c0-3c1f-8313-6660a91cf9b8.json b/test/data/enm/study-FCSV-35f8857a-06c0-3c1f-8313-6660a91cf9b8.json
new file mode 100644
index 0000000..0f2a820
--- /dev/null
+++ b/test/data/enm/study-FCSV-35f8857a-06c0-3c1f-8313-6660a91cf9b8.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-35f8857a-06c0-3c1f-8313-6660a91cf9b8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.018,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.801,
+        "errQualifier": "std",
+        "errorValue": 0.838
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-365c4ad3-9539-36db-9cdc-e1a28a05c5e9.json b/test/data/enm/study-FCSV-365c4ad3-9539-36db-9cdc-e1a28a05c5e9.json
new file mode 100644
index 0000000..0425d3b
--- /dev/null
+++ b/test/data/enm/study-FCSV-365c4ad3-9539-36db-9cdc-e1a28a05c5e9.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-365c4ad3-9539-36db-9cdc-e1a28a05c5e9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Mercaptoacetic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3688aa90-f8d3-342a-8985-1ca6e2ada6c4.json b/test/data/enm/study-FCSV-3688aa90-f8d3-342a-8985-1ca6e2ada6c4.json
new file mode 100644
index 0000000..b820d22
--- /dev/null
+++ b/test/data/enm/study-FCSV-3688aa90-f8d3-342a-8985-1ca6e2ada6c4.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3688aa90-f8d3-342a-8985-1ca6e2ada6c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 235.179,
+        "errQualifier": "sd",
+        "errorValue": 6.612
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.059
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-36917767-8170-33ab-81b1-3a7fe3368f10.json b/test/data/enm/study-FCSV-36917767-8170-33ab-81b1-3a7fe3368f10.json
new file mode 100644
index 0000000..4b2fe82
--- /dev/null
+++ b/test/data/enm/study-FCSV-36917767-8170-33ab-81b1-3a7fe3368f10.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-36917767-8170-33ab-81b1-3a7fe3368f10",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Carboxymethyl-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-370fb712-e62f-3bd0-be25-807b64a296ab.json b/test/data/enm/study-FCSV-370fb712-e62f-3bd0-be25-807b64a296ab.json
new file mode 100644
index 0000000..66b281c
--- /dev/null
+++ b/test/data/enm/study-FCSV-370fb712-e62f-3bd0-be25-807b64a296ab.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-370fb712-e62f-3bd0-be25-807b64a296ab",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3797e52d-d50e-3b79-ad45-127f737cdfe2.json b/test/data/enm/study-FCSV-3797e52d-d50e-3b79-ad45-127f737cdfe2.json
new file mode 100644
index 0000000..4ef5c3d
--- /dev/null
+++ b/test/data/enm/study-FCSV-3797e52d-d50e-3b79-ad45-127f737cdfe2.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-3797e52d-d50e-3b79-ad45-127f737cdfe2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -16.94,
+        "errQualifier": "sd",
+        "errorValue": 4.04
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.42,
+        "errQualifier": "sd",
+        "errorValue": 6.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-37a726d6-e5ab-326f-87aa-6041d85c9cd3.json b/test/data/enm/study-FCSV-37a726d6-e5ab-326f-87aa-6041d85c9cd3.json
new file mode 100644
index 0000000..58b450c
--- /dev/null
+++ b/test/data/enm/study-FCSV-37a726d6-e5ab-326f-87aa-6041d85c9cd3.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-37a726d6-e5ab-326f-87aa-6041d85c9cd3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.385,
+        "errQualifier": "sd",
+        "errorValue": 0.054
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.638,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 541.18,
+        "errQualifier": "sd",
+        "errorValue": 0.45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-37ae689c-1700-3ae9-bac1-6fb644926799.json b/test/data/enm/study-FCSV-37ae689c-1700-3ae9-bac1-6fb644926799.json
new file mode 100644
index 0000000..fec1daa
--- /dev/null
+++ b/test/data/enm/study-FCSV-37ae689c-1700-3ae9-bac1-6fb644926799.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-37ae689c-1700-3ae9-bac1-6fb644926799",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino-poly(ethylene glycol)-thiol (5kDa) (low density)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-37c881e8-8fce-346d-ab4d-68ef77aadbdf.json b/test/data/enm/study-FCSV-37c881e8-8fce-346d-ab4d-68ef77aadbdf.json
new file mode 100644
index 0000000..1deae4a
--- /dev/null
+++ b/test/data/enm/study-FCSV-37c881e8-8fce-346d-ab4d-68ef77aadbdf.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-37c881e8-8fce-346d-ab4d-68ef77aadbdf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.162,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.252,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-386692aa-84ef-3326-b1d3-736cf0f8f42a.json b/test/data/enm/study-FCSV-386692aa-84ef-3326-b1d3-736cf0f8f42a.json
new file mode 100644
index 0000000..a19f0ff
--- /dev/null
+++ b/test/data/enm/study-FCSV-386692aa-84ef-3326-b1d3-736cf0f8f42a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-386692aa-84ef-3326-b1d3-736cf0f8f42a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.108,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.1,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-38904964-f62a-37a5-bd2f-f665f9d307e4.json b/test/data/enm/study-FCSV-38904964-f62a-37a5-bd2f-f665f9d307e4.json
new file mode 100644
index 0000000..cd0a1a2
--- /dev/null
+++ b/test/data/enm/study-FCSV-38904964-f62a-37a5-bd2f-f665f9d307e4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-38904964-f62a-37a5-bd2f-f665f9d307e4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.1,
+        "errQualifier": "sd",
+        "errorValue": 0.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3896f522-0467-336a-91bf-76b6028259d5.json b/test/data/enm/study-FCSV-3896f522-0467-336a-91bf-76b6028259d5.json
new file mode 100644
index 0000000..ae61f2a
--- /dev/null
+++ b/test/data/enm/study-FCSV-3896f522-0467-336a-91bf-76b6028259d5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-3896f522-0467-336a-91bf-76b6028259d5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-390e13ae-9692-3234-9279-da02ffc7ac4a.json b/test/data/enm/study-FCSV-390e13ae-9692-3234-9279-da02ffc7ac4a.json
new file mode 100644
index 0000000..2b8780a
--- /dev/null
+++ b/test/data/enm/study-FCSV-390e13ae-9692-3234-9279-da02ffc7ac4a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-390e13ae-9692-3234-9279-da02ffc7ac4a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.035,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.847,
+        "errQualifier": "std",
+        "errorValue": 0.548
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3910e1dd-4041-3e7a-ad4b-1fbcaf915140.json b/test/data/enm/study-FCSV-3910e1dd-4041-3e7a-ad4b-1fbcaf915140.json
new file mode 100644
index 0000000..92a6525
--- /dev/null
+++ b/test/data/enm/study-FCSV-3910e1dd-4041-3e7a-ad4b-1fbcaf915140.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-3910e1dd-4041-3e7a-ad4b-1fbcaf915140",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 68.23,
+        "errQualifier": "sd",
+        "errorValue": 0.82
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 65.58,
+        "errQualifier": "sd",
+        "errorValue": 1.53
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 66.79,
+        "errQualifier": "sd",
+        "errorValue": 1.71
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 58.48,
+        "errQualifier": "sd",
+        "errorValue": 5.28
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 70.28,
+        "errQualifier": "sd",
+        "errorValue": 2.24
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 52.34,
+        "errQualifier": "sd",
+        "errorValue": 9.43
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 70.28,
+        "errQualifier": "sd",
+        "errorValue": 0.85
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67.16,
+        "errQualifier": "sd",
+        "errorValue": 2.43
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3964d459-bfae-326a-80e5-527f7cb14ec8.json b/test/data/enm/study-FCSV-3964d459-bfae-326a-80e5-527f7cb14ec8.json
new file mode 100644
index 0000000..823ea64
--- /dev/null
+++ b/test/data/enm/study-FCSV-3964d459-bfae-326a-80e5-527f7cb14ec8.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3964d459-bfae-326a-80e5-527f7cb14ec8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.016,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.928,
+        "errQualifier": "std",
+        "errorValue": 0.721
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-399c83d6-1b89-3aef-adec-eaa1df8405a8.json b/test/data/enm/study-FCSV-399c83d6-1b89-3aef-adec-eaa1df8405a8.json
new file mode 100644
index 0000000..6065053
--- /dev/null
+++ b/test/data/enm/study-FCSV-399c83d6-1b89-3aef-adec-eaa1df8405a8.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-399c83d6-1b89-3aef-adec-eaa1df8405a8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 248.678,
+        "errQualifier": "sd",
+        "errorValue": 17.422
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-39ba2f49-27fd-31c3-9ede-983864c44adc.json b/test/data/enm/study-FCSV-39ba2f49-27fd-31c3-9ede-983864c44adc.json
new file mode 100644
index 0000000..50260a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-39ba2f49-27fd-31c3-9ede-983864c44adc.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-39ba2f49-27fd-31c3-9ede-983864c44adc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 2.509,
+        "errQualifier": "sd",
+        "errorValue": 1.28
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 1.327,
+        "errQualifier": "std",
+        "errorValue": 0.736
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-39c3d441-7015-3457-b0e4-f9b71546509b.json b/test/data/enm/study-FCSV-39c3d441-7015-3457-b0e4-f9b71546509b.json
new file mode 100644
index 0000000..8a39892
--- /dev/null
+++ b/test/data/enm/study-FCSV-39c3d441-7015-3457-b0e4-f9b71546509b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-39c3d441-7015-3457-b0e4-f9b71546509b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.3,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-39cf9cd1-21b3-3a60-a8ac-59d53f68ae53.json b/test/data/enm/study-FCSV-39cf9cd1-21b3-3a60-a8ac-59d53f68ae53.json
new file mode 100644
index 0000000..f169b0c
--- /dev/null
+++ b/test/data/enm/study-FCSV-39cf9cd1-21b3-3a60-a8ac-59d53f68ae53.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-39cf9cd1-21b3-3a60-a8ac-59d53f68ae53",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 46.01,
+        "errQualifier": "sd",
+        "errorValue": 4.89
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 52.02,
+        "errQualifier": "sd",
+        "errorValue": 3.89
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.12,
+        "errQualifier": "sd",
+        "errorValue": 18.32
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.48,
+        "errQualifier": "sd",
+        "errorValue": 4.85
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 52.3,
+        "errQualifier": "sd",
+        "errorValue": 18.59
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.06,
+        "errQualifier": "sd",
+        "errorValue": 4.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 52.3,
+        "errQualifier": "sd",
+        "errorValue": 5.9
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 58.19,
+        "errQualifier": "sd",
+        "errorValue": 4.53
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-39d8afd3-6fe2-3e44-b332-fa35013716d4.json b/test/data/enm/study-FCSV-39d8afd3-6fe2-3e44-b332-fa35013716d4.json
new file mode 100644
index 0000000..03251d1
--- /dev/null
+++ b/test/data/enm/study-FCSV-39d8afd3-6fe2-3e44-b332-fa35013716d4.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-39d8afd3-6fe2-3e44-b332-fa35013716d4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.228,
+        "errQualifier": "sd",
+        "errorValue": 0.07
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.201,
+        "errQualifier": "sd",
+        "errorValue": 0.061
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-39eec7d6-9810-3d05-8d96-d7cf3af1b5f4.json b/test/data/enm/study-FCSV-39eec7d6-9810-3d05-8d96-d7cf3af1b5f4.json
new file mode 100644
index 0000000..6318a04
--- /dev/null
+++ b/test/data/enm/study-FCSV-39eec7d6-9810-3d05-8d96-d7cf3af1b5f4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-39eec7d6-9810-3d05-8d96-d7cf3af1b5f4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":10\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":1\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":83\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":8\n}\n,\"P00739\":{\n\t\"loValue\":9\n}\n,\"P00740\":{\n\t\"loValue\":133\n}\n,\"P00742\":{\n\t\"loValue\":191\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":46\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":63\n}\n,\"P01009\":{\n\t\"loValue\":28\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":34\n}\n,\"P01024\":{\n\t\"loValue\":74\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":42\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":1\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":1\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":47\n}\n,\"P01857\":{\n\t\"loValue\":46\n}\n,\"P01859\":{\n\t\"loValue\":12\n}\n,\"P01860\":{\n\t\"loValue\":11\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":54\n}\n,\"P01876\":{\n\t\"loValue\":40\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":14\n}\n,\"P02649\":{\n\t\"loValue\":27\n}\n,\"P02652\":{\n\t\"loValue\":4\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":78\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":18\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":6\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":7\n}\n,\"P02788\":{\n\t\"loValue\":2\n}\n,\"P02790\":{\n\t\"loValue\":2\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":12\n}\n,\"P03951\":{\n\t\"loValue\":22\n}\n,\"P03952\":{\n\t\"loValue\":4\n}\n,\"P04003\":{\n\t\"loValue\":339\n}\n,\"P04004\":{\n\t\"loValue\":62\n}\n,\"P04070\":{\n\t\"loValue\":17\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":17\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":153\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":12\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":4\n}\n,\"P05155\":{\n\t\"loValue\":12\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":4\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":1\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":176\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":4\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":4\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":4\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":105\n}\n,\"P0C0L5\":{\n\t\"loValue\":11\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":16\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":11\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":1\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":1\n}\n,\"P19827\":{\n\t\"loValue\":1\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":16\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":35\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":7\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":1\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":5\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":1\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":3\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":1\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":1\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":1\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":1\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":1\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":6\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":1\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":3\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":10\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":1\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":1\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":1\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":2\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3a119664-52ae-3fbf-b899-ffadb2403017.json b/test/data/enm/study-FCSV-3a119664-52ae-3fbf-b899-ffadb2403017.json
new file mode 100644
index 0000000..cd598e3
--- /dev/null
+++ b/test/data/enm/study-FCSV-3a119664-52ae-3fbf-b899-ffadb2403017.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3a119664-52ae-3fbf-b899-ffadb2403017",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 261.016,
+        "errQualifier": "sd",
+        "errorValue": 2.358
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3a6eb4a5-5d2c-3763-8626-ea93f11af5a1.json b/test/data/enm/study-FCSV-3a6eb4a5-5d2c-3763-8626-ea93f11af5a1.json
new file mode 100644
index 0000000..a3f316f
--- /dev/null
+++ b/test/data/enm/study-FCSV-3a6eb4a5-5d2c-3763-8626-ea93f11af5a1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3a6eb4a5-5d2c-3763-8626-ea93f11af5a1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.061,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.041,
+        "errQualifier": "std",
+        "errorValue": 0.663
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3aae9e57-b78b-3d3c-aa9e-d93461a763f9.json b/test/data/enm/study-FCSV-3aae9e57-b78b-3d3c-aa9e-d93461a763f9.json
new file mode 100644
index 0000000..15ed79a
--- /dev/null
+++ b/test/data/enm/study-FCSV-3aae9e57-b78b-3d3c-aa9e-d93461a763f9.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3aae9e57-b78b-3d3c-aa9e-d93461a763f9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.155,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.689,
+        "errQualifier": "std",
+        "errorValue": 0.027
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3abbcb35-172d-3914-96bc-763c9e570209.json b/test/data/enm/study-FCSV-3abbcb35-172d-3914-96bc-763c9e570209.json
new file mode 100644
index 0000000..835c04b
--- /dev/null
+++ b/test/data/enm/study-FCSV-3abbcb35-172d-3914-96bc-763c9e570209.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-3abbcb35-172d-3914-96bc-763c9e570209",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -33.97,
+        "errQualifier": "sd",
+        "errorValue": 0.94
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.14,
+        "errQualifier": "sd",
+        "errorValue": 1.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3b01d0e2-374c-3bf5-98c1-5a04b4ba1e36.json b/test/data/enm/study-FCSV-3b01d0e2-374c-3bf5-98c1-5a04b4ba1e36.json
new file mode 100644
index 0000000..bfffcbb
--- /dev/null
+++ b/test/data/enm/study-FCSV-3b01d0e2-374c-3bf5-98c1-5a04b4ba1e36.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-3b01d0e2-374c-3bf5-98c1-5a04b4ba1e36",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.253,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.283,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.4,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3b21a78f-03db-3484-afc2-5d901977c471.json b/test/data/enm/study-FCSV-3b21a78f-03db-3484-afc2-5d901977c471.json
new file mode 100644
index 0000000..c958301
--- /dev/null
+++ b/test/data/enm/study-FCSV-3b21a78f-03db-3484-afc2-5d901977c471.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3b21a78f-03db-3484-afc2-5d901977c471",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.091,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.201,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3b660583-0c84-347e-adba-0b23500137f2.json b/test/data/enm/study-FCSV-3b660583-0c84-347e-adba-0b23500137f2.json
new file mode 100644
index 0000000..b179a1c
--- /dev/null
+++ b/test/data/enm/study-FCSV-3b660583-0c84-347e-adba-0b23500137f2.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-3b660583-0c84-347e-adba-0b23500137f2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3b841b07-58b2-3fbd-8cd0-dba1fc16e07a.json b/test/data/enm/study-FCSV-3b841b07-58b2-3fbd-8cd0-dba1fc16e07a.json
new file mode 100644
index 0000000..be179b7
--- /dev/null
+++ b/test/data/enm/study-FCSV-3b841b07-58b2-3fbd-8cd0-dba1fc16e07a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3b841b07-58b2-3fbd-8cd0-dba1fc16e07a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.091,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.057,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3be53fa0-45a9-3486-9491-c43f835f1723.json b/test/data/enm/study-FCSV-3be53fa0-45a9-3486-9491-c43f835f1723.json
new file mode 100644
index 0000000..d12adf5
--- /dev/null
+++ b/test/data/enm/study-FCSV-3be53fa0-45a9-3486-9491-c43f835f1723.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3be53fa0-45a9-3486-9491-c43f835f1723",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":1\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":22\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":8\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":29\n}\n,\"P00739\":{\n\t\"loValue\":20\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":1\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":12\n}\n,\"P01009\":{\n\t\"loValue\":50\n}\n,\"P01011\":{\n\t\"loValue\":11\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":72\n}\n,\"P01024\":{\n\t\"loValue\":135\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":88\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":32\n}\n,\"P01857\":{\n\t\"loValue\":39\n}\n,\"P01859\":{\n\t\"loValue\":20\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":8\n}\n,\"P01871\":{\n\t\"loValue\":25\n}\n,\"P01876\":{\n\t\"loValue\":25\n}\n,\"P01877\":{\n\t\"loValue\":4\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":26\n}\n,\"P02649\":{\n\t\"loValue\":5\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":3\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":8\n}\n,\"P02763\":{\n\t\"loValue\":14\n}\n,\"P02765\":{\n\t\"loValue\":9\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":23\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":57\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":8\n}\n,\"P04004\":{\n\t\"loValue\":5\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":14\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":8\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":10\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":7\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":1\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":2\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":77\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":9\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":6\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":17\n}\n,\"P19827\":{\n\t\"loValue\":16\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":3\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":4\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":3\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":6\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":2\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":1\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":2\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":14\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":1\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":1\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":1\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3bf2ad76-d70f-357b-bf05-3d4599247789.json b/test/data/enm/study-FCSV-3bf2ad76-d70f-357b-bf05-3d4599247789.json
new file mode 100644
index 0000000..14e0673
--- /dev/null
+++ b/test/data/enm/study-FCSV-3bf2ad76-d70f-357b-bf05-3d4599247789.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3bf2ad76-d70f-357b-bf05-3d4599247789",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.326,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3bfce90c-64a9-3d09-ae6f-43421a562421.json b/test/data/enm/study-FCSV-3bfce90c-64a9-3d09-ae6f-43421a562421.json
new file mode 100644
index 0000000..c35d84e
--- /dev/null
+++ b/test/data/enm/study-FCSV-3bfce90c-64a9-3d09-ae6f-43421a562421.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-3bfce90c-64a9-3d09-ae6f-43421a562421",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated poly(allylamine)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3c0ab00d-502b-3981-a684-71c1a8fd3d6e.json b/test/data/enm/study-FCSV-3c0ab00d-502b-3981-a684-71c1a8fd3d6e.json
new file mode 100644
index 0000000..0079f7a
--- /dev/null
+++ b/test/data/enm/study-FCSV-3c0ab00d-502b-3981-a684-71c1a8fd3d6e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3c0ab00d-502b-3981-a684-71c1a8fd3d6e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.058,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.121,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3cf0b30d-a8ae-3b92-acbf-6e278de12bbb.json b/test/data/enm/study-FCSV-3cf0b30d-a8ae-3b92-acbf-6e278de12bbb.json
new file mode 100644
index 0000000..291bd80
--- /dev/null
+++ b/test/data/enm/study-FCSV-3cf0b30d-a8ae-3b92-acbf-6e278de12bbb.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3cf0b30d-a8ae-3b92-acbf-6e278de12bbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 242.478,
+        "errQualifier": "sd",
+        "errorValue": 1.237
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.042
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3d3420cd-bce3-32a6-af42-1472fea817a1.json b/test/data/enm/study-FCSV-3d3420cd-bce3-32a6-af42-1472fea817a1.json
new file mode 100644
index 0000000..0461527
--- /dev/null
+++ b/test/data/enm/study-FCSV-3d3420cd-bce3-32a6-af42-1472fea817a1.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-3d3420cd-bce3-32a6-af42-1472fea817a1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.967,
+        "errQualifier": "sd",
+        "errorValue": 1.052
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3dade3c6-a182-3517-a448-31910e79ccca.json b/test/data/enm/study-FCSV-3dade3c6-a182-3517-a448-31910e79ccca.json
new file mode 100644
index 0000000..46762b8
--- /dev/null
+++ b/test/data/enm/study-FCSV-3dade3c6-a182-3517-a448-31910e79ccca.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-3dade3c6-a182-3517-a448-31910e79ccca",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3de23ded-f721-3ac2-8e88-bb3184a70acb.json b/test/data/enm/study-FCSV-3de23ded-f721-3ac2-8e88-bb3184a70acb.json
new file mode 100644
index 0000000..b4e1e9c
--- /dev/null
+++ b/test/data/enm/study-FCSV-3de23ded-f721-3ac2-8e88-bb3184a70acb.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-3de23ded-f721-3ac2-8e88-bb3184a70acb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 28.94,
+        "errQualifier": "sd",
+        "errorValue": 1.5
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 52.46,
+        "errQualifier": "sd",
+        "errorValue": 3.85
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.25,
+        "errQualifier": "sd",
+        "errorValue": 2.62
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 78.53,
+        "errQualifier": "sd",
+        "errorValue": 62.8
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.49,
+        "errQualifier": "sd",
+        "errorValue": 3.1
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 37.65,
+        "errQualifier": "sd",
+        "errorValue": 3.22
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.49,
+        "errQualifier": "sd",
+        "errorValue": 1.95
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.15,
+        "errQualifier": "sd",
+        "errorValue": 23.65
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3e267e9a-8b3b-34a1-beae-32f1fb6bc392.json b/test/data/enm/study-FCSV-3e267e9a-8b3b-34a1-beae-32f1fb6bc392.json
new file mode 100644
index 0000000..7448db5
--- /dev/null
+++ b/test/data/enm/study-FCSV-3e267e9a-8b3b-34a1-beae-32f1fb6bc392.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3e267e9a-8b3b-34a1-beae-32f1fb6bc392",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 241.52,
+        "errQualifier": "sd",
+        "errorValue": 4.828
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3e70b00d-68ae-351a-84cb-43c6fa8e6050.json b/test/data/enm/study-FCSV-3e70b00d-68ae-351a-84cb-43c6fa8e6050.json
new file mode 100644
index 0000000..8a7df1b
--- /dev/null
+++ b/test/data/enm/study-FCSV-3e70b00d-68ae-351a-84cb-43c6fa8e6050.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3e70b00d-68ae-351a-84cb-43c6fa8e6050",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":5\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":5\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":12\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":6\n}\n,\"O43889\":{\n\t\"loValue\":4\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":3\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":7\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":2\n}\n,\"P00734\":{\n\t\"loValue\":87\n}\n,\"P00736\":{\n\t\"loValue\":1\n}\n,\"P00738\":{\n\t\"loValue\":16\n}\n,\"P00739\":{\n\t\"loValue\":13\n}\n,\"P00740\":{\n\t\"loValue\":2\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":164\n}\n,\"P01009\":{\n\t\"loValue\":36\n}\n,\"P01011\":{\n\t\"loValue\":5\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":51\n}\n,\"P01024\":{\n\t\"loValue\":89\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":275\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":28\n}\n,\"P01857\":{\n\t\"loValue\":35\n}\n,\"P01859\":{\n\t\"loValue\":18\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":4\n}\n,\"P01871\":{\n\t\"loValue\":51\n}\n,\"P01876\":{\n\t\"loValue\":23\n}\n,\"P01877\":{\n\t\"loValue\":4\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":1\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":91\n}\n,\"P02649\":{\n\t\"loValue\":88\n}\n,\"P02652\":{\n\t\"loValue\":14\n}\n,\"P02654\":{\n\t\"loValue\":10\n}\n,\"P02655\":{\n\t\"loValue\":13\n}\n,\"P02656\":{\n\t\"loValue\":10\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":4\n}\n,\"P02749\":{\n\t\"loValue\":8\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":4\n}\n,\"P02763\":{\n\t\"loValue\":5\n}\n,\"P02765\":{\n\t\"loValue\":3\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":11\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":36\n}\n,\"P02788\":{\n\t\"loValue\":11\n}\n,\"P02790\":{\n\t\"loValue\":5\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":108\n}\n,\"P03952\":{\n\t\"loValue\":66\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":106\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":66\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":6\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":27\n}\n,\"P05155\":{\n\t\"loValue\":21\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":3\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":5\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":11\n}\n,\"P06732\":{\n\t\"loValue\":3\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":1\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":2\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":3\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":3\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":50\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":2\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":48\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":28\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":9\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":7\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":7\n}\n,\"P19827\":{\n\t\"loValue\":2\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":7\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":3\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":7\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":1\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":17\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":1\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":1\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":24\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":25\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":6\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":29\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":15\n}\n,\"P69905\":{\n\t\"loValue\":17\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":2\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":8\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":1\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":39\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":29\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":3\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":4\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":1\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":1\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":29\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":1\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":1\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":6\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":16\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":1\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3e90f4c3-45be-33f3-8879-cabf7f29498f.json b/test/data/enm/study-FCSV-3e90f4c3-45be-33f3-8879-cabf7f29498f.json
new file mode 100644
index 0000000..0187a5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-3e90f4c3-45be-33f3-8879-cabf7f29498f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-3e90f4c3-45be-33f3-8879-cabf7f29498f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3e9d351e-94fc-3a81-bf79-ead6fe7de2d1.json b/test/data/enm/study-FCSV-3e9d351e-94fc-3a81-bf79-ead6fe7de2d1.json
new file mode 100644
index 0000000..c938ae3
--- /dev/null
+++ b/test/data/enm/study-FCSV-3e9d351e-94fc-3a81-bf79-ead6fe7de2d1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-3e9d351e-94fc-3a81-bf79-ead6fe7de2d1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -24.92,
+        "errQualifier": "sd",
+        "errorValue": 11
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -14.24,
+        "errQualifier": "sd",
+        "errorValue": 9.19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3eb255e1-9477-3c2c-937c-7090a1194389.json b/test/data/enm/study-FCSV-3eb255e1-9477-3c2c-937c-7090a1194389.json
new file mode 100644
index 0000000..e23da78
--- /dev/null
+++ b/test/data/enm/study-FCSV-3eb255e1-9477-3c2c-937c-7090a1194389.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-3eb255e1-9477-3c2c-937c-7090a1194389",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.049,
+        "errQualifier": "sd",
+        "errorValue": 0.136
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3ec13f75-086f-332c-8e12-0f286bc6fb0d.json b/test/data/enm/study-FCSV-3ec13f75-086f-332c-8e12-0f286bc6fb0d.json
new file mode 100644
index 0000000..0dadd4e
--- /dev/null
+++ b/test/data/enm/study-FCSV-3ec13f75-086f-332c-8e12-0f286bc6fb0d.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-3ec13f75-086f-332c-8e12-0f286bc6fb0d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3ef1e954-d2cc-383e-a861-e506e46469f7.json b/test/data/enm/study-FCSV-3ef1e954-d2cc-383e-a861-e506e46469f7.json
new file mode 100644
index 0000000..96ea64a
--- /dev/null
+++ b/test/data/enm/study-FCSV-3ef1e954-d2cc-383e-a861-e506e46469f7.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3ef1e954-d2cc-383e-a861-e506e46469f7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.193,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.376,
+        "errQualifier": "std",
+        "errorValue": 0.087
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3f4719d3-979f-324b-9fd7-9709c2b22fea.json b/test/data/enm/study-FCSV-3f4719d3-979f-324b-9fd7-9709c2b22fea.json
new file mode 100644
index 0000000..724c555
--- /dev/null
+++ b/test/data/enm/study-FCSV-3f4719d3-979f-324b-9fd7-9709c2b22fea.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-3f4719d3-979f-324b-9fd7-9709c2b22fea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3f51c872-21e5-3f56-a781-7224a2548d97.json b/test/data/enm/study-FCSV-3f51c872-21e5-3f56-a781-7224a2548d97.json
new file mode 100644
index 0000000..a6e3313
--- /dev/null
+++ b/test/data/enm/study-FCSV-3f51c872-21e5-3f56-a781-7224a2548d97.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-3f51c872-21e5-3f56-a781-7224a2548d97",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.037,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.748,
+        "errQualifier": "std",
+        "errorValue": 0.413
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3f773a3e-550f-3a44-9ed5-37bf478042a0.json b/test/data/enm/study-FCSV-3f773a3e-550f-3a44-9ed5-37bf478042a0.json
new file mode 100644
index 0000000..5c6448c
--- /dev/null
+++ b/test/data/enm/study-FCSV-3f773a3e-550f-3a44-9ed5-37bf478042a0.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-3f773a3e-550f-3a44-9ed5-37bf478042a0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.593,
+        "errQualifier": "sd",
+        "errorValue": 0.767
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3f90d155-7a30-31dc-b2e8-bbab84bc48e2.json b/test/data/enm/study-FCSV-3f90d155-7a30-31dc-b2e8-bbab84bc48e2.json
new file mode 100644
index 0000000..a352b58
--- /dev/null
+++ b/test/data/enm/study-FCSV-3f90d155-7a30-31dc-b2e8-bbab84bc48e2.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-3f90d155-7a30-31dc-b2e8-bbab84bc48e2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 474.815,
+        "errQualifier": "sd",
+        "errorValue": 1.346
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.046
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3fa3df34-5892-310a-9289-108625165764.json b/test/data/enm/study-FCSV-3fa3df34-5892-310a-9289-108625165764.json
new file mode 100644
index 0000000..a6e5620
--- /dev/null
+++ b/test/data/enm/study-FCSV-3fa3df34-5892-310a-9289-108625165764.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-3fa3df34-5892-310a-9289-108625165764",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.226,
+        "errQualifier": "sd",
+        "errorValue": 0.117
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.476,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.3,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3fda0195-c559-39be-a256-55cab9a4b888.json b/test/data/enm/study-FCSV-3fda0195-c559-39be-a256-55cab9a4b888.json
new file mode 100644
index 0000000..93593d9
--- /dev/null
+++ b/test/data/enm/study-FCSV-3fda0195-c559-39be-a256-55cab9a4b888.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-3fda0195-c559-39be-a256-55cab9a4b888",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.34,
+        "errQualifier": "sd",
+        "errorValue": 1.09
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.24,
+        "errQualifier": "sd",
+        "errorValue": 1.53
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3fe257ad-d8bb-3e54-b6c2-767cb5d79b77.json b/test/data/enm/study-FCSV-3fe257ad-d8bb-3e54-b6c2-767cb5d79b77.json
new file mode 100644
index 0000000..c6b4a06
--- /dev/null
+++ b/test/data/enm/study-FCSV-3fe257ad-d8bb-3e54-b6c2-767cb5d79b77.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-3fe257ad-d8bb-3e54-b6c2-767cb5d79b77",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":0\n}\n,\"P00736\":{\n\t\"loValue\":2\n}\n,\"P00738\":{\n\t\"loValue\":4\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":7\n}\n,\"P01009\":{\n\t\"loValue\":36\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":12\n}\n,\"P01024\":{\n\t\"loValue\":98\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":20\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":4\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":21\n}\n,\"P01857\":{\n\t\"loValue\":18\n}\n,\"P01859\":{\n\t\"loValue\":5\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":22\n}\n,\"P01876\":{\n\t\"loValue\":15\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":29\n}\n,\"P02649\":{\n\t\"loValue\":7\n}\n,\"P02652\":{\n\t\"loValue\":5\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":2\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":4\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":51\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":6\n}\n,\"P02766\":{\n\t\"loValue\":10\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":18\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":4\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":11\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":120\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":9\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":27\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":1\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":1\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":19\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":1\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":1\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":1\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3fe25d8f-147e-359a-8587-0131e11ba51e.json b/test/data/enm/study-FCSV-3fe25d8f-147e-359a-8587-0131e11ba51e.json
new file mode 100644
index 0000000..d026db4
--- /dev/null
+++ b/test/data/enm/study-FCSV-3fe25d8f-147e-359a-8587-0131e11ba51e.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-3fe25d8f-147e-359a-8587-0131e11ba51e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "hexadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-3ff530da-4247-382e-8a33-a67ba461ed08.json b/test/data/enm/study-FCSV-3ff530da-4247-382e-8a33-a67ba461ed08.json
new file mode 100644
index 0000000..6e99966
--- /dev/null
+++ b/test/data/enm/study-FCSV-3ff530da-4247-382e-8a33-a67ba461ed08.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-3ff530da-4247-382e-8a33-a67ba461ed08",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.279,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.31,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.1,
+        "errQualifier": "sd",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-401f5400-c23a-3890-b606-49ccc2c603de.json b/test/data/enm/study-FCSV-401f5400-c23a-3890-b606-49ccc2c603de.json
new file mode 100644
index 0000000..66582cb
--- /dev/null
+++ b/test/data/enm/study-FCSV-401f5400-c23a-3890-b606-49ccc2c603de.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-401f5400-c23a-3890-b606-49ccc2c603de",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "hexadecyltrimethylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4044ec71-61f6-389b-bd85-1f2ec49481f2.json b/test/data/enm/study-FCSV-4044ec71-61f6-389b-bd85-1f2ec49481f2.json
new file mode 100644
index 0000000..dbb8c34
--- /dev/null
+++ b/test/data/enm/study-FCSV-4044ec71-61f6-389b-bd85-1f2ec49481f2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4044ec71-61f6-389b-bd85-1f2ec49481f2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-408f4adc-4412-38d8-abda-cc520a5c9683.json b/test/data/enm/study-FCSV-408f4adc-4412-38d8-abda-cc520a5c9683.json
new file mode 100644
index 0000000..06cc5ac
--- /dev/null
+++ b/test/data/enm/study-FCSV-408f4adc-4412-38d8-abda-cc520a5c9683.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-408f4adc-4412-38d8-abda-cc520a5c9683",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-40fe01c5-b4d8-354f-a34c-fb5578c380c2.json b/test/data/enm/study-FCSV-40fe01c5-b4d8-354f-a34c-fb5578c380c2.json
new file mode 100644
index 0000000..b17358e
--- /dev/null
+++ b/test/data/enm/study-FCSV-40fe01c5-b4d8-354f-a34c-fb5578c380c2.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-40fe01c5-b4d8-354f-a34c-fb5578c380c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.314,
+        "errQualifier": "sd",
+        "errorValue": 0.059
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.334,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.37,
+        "errQualifier": "sd",
+        "errorValue": 0.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-41230867-8693-34f1-9eed-7147ae23af73.json b/test/data/enm/study-FCSV-41230867-8693-34f1-9eed-7147ae23af73.json
new file mode 100644
index 0000000..1e509a5
--- /dev/null
+++ b/test/data/enm/study-FCSV-41230867-8693-34f1-9eed-7147ae23af73.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-41230867-8693-34f1-9eed-7147ae23af73",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.15,
+        "errQualifier": "sd",
+        "errorValue": 0.039
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.207,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-41261329-7449-39f7-b280-f5218051f0e1.json b/test/data/enm/study-FCSV-41261329-7449-39f7-b280-f5218051f0e1.json
new file mode 100644
index 0000000..094cd82
--- /dev/null
+++ b/test/data/enm/study-FCSV-41261329-7449-39f7-b280-f5218051f0e1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-41261329-7449-39f7-b280-f5218051f0e1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.116,
+        "errQualifier": "sd",
+        "errorValue": 0.047
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.178,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4162a737-eee7-3b0a-89bf-844fa8fdcb6f.json b/test/data/enm/study-FCSV-4162a737-eee7-3b0a-89bf-844fa8fdcb6f.json
new file mode 100644
index 0000000..5967be7
--- /dev/null
+++ b/test/data/enm/study-FCSV-4162a737-eee7-3b0a-89bf-844fa8fdcb6f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4162a737-eee7-3b0a-89bf-844fa8fdcb6f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated poly(allylamine)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-416764ef-90bc-364c-a78c-68818efb86a3.json b/test/data/enm/study-FCSV-416764ef-90bc-364c-a78c-68818efb86a3.json
new file mode 100644
index 0000000..52b28fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-416764ef-90bc-364c-a78c-68818efb86a3.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-416764ef-90bc-364c-a78c-68818efb86a3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -25.55,
+        "errQualifier": "sd",
+        "errorValue": 4.26
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.21,
+        "errQualifier": "sd",
+        "errorValue": 2.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4182e17e-c078-334b-8b9f-227ad53be581.json b/test/data/enm/study-FCSV-4182e17e-c078-334b-8b9f-227ad53be581.json
new file mode 100644
index 0000000..3ad7003
--- /dev/null
+++ b/test/data/enm/study-FCSV-4182e17e-c078-334b-8b9f-227ad53be581.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4182e17e-c078-334b-8b9f-227ad53be581",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-41e64391-35d1-3888-a7a0-3c15e62797db.json b/test/data/enm/study-FCSV-41e64391-35d1-3888-a7a0-3c15e62797db.json
new file mode 100644
index 0000000..78f74e3
--- /dev/null
+++ b/test/data/enm/study-FCSV-41e64391-35d1-3888-a7a0-3c15e62797db.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-41e64391-35d1-3888-a7a0-3c15e62797db",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-41fded04-3bc4-349f-8634-74e55074cdbb.json b/test/data/enm/study-FCSV-41fded04-3bc4-349f-8634-74e55074cdbb.json
new file mode 100644
index 0000000..19b9861
--- /dev/null
+++ b/test/data/enm/study-FCSV-41fded04-3bc4-349f-8634-74e55074cdbb.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-41fded04-3bc4-349f-8634-74e55074cdbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":10\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":9\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":1\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":3\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":73\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":132\n}\n,\"P00742\":{\n\t\"loValue\":229\n}\n,\"P00746\":{\n\t\"loValue\":1\n}\n,\"P00747\":{\n\t\"loValue\":10\n}\n,\"P00748\":{\n\t\"loValue\":86\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":104\n}\n,\"P01009\":{\n\t\"loValue\":18\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":23\n}\n,\"P01024\":{\n\t\"loValue\":75\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":43\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":1\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":2\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":46\n}\n,\"P01857\":{\n\t\"loValue\":35\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":9\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":55\n}\n,\"P01876\":{\n\t\"loValue\":31\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":12\n}\n,\"P02649\":{\n\t\"loValue\":19\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":93\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":1\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":7\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":10\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":12\n}\n,\"P03951\":{\n\t\"loValue\":20\n}\n,\"P03952\":{\n\t\"loValue\":12\n}\n,\"P04003\":{\n\t\"loValue\":324\n}\n,\"P04004\":{\n\t\"loValue\":62\n}\n,\"P04070\":{\n\t\"loValue\":17\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":54\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":173\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":12\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":4\n}\n,\"P05155\":{\n\t\"loValue\":34\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":2\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":164\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":4\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":4\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":6\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":4\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":81\n}\n,\"P0C0L5\":{\n\t\"loValue\":10\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":1\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":18\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":31\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":2\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":15\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":9\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":2\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":2\n}\n,\"Q16665\":{\n\t\"loValue\":1\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":1\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":1\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":3\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":1\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":1\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":10\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":1\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":1\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":5\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":15\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":1\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":3\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":1\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4204bf57-51eb-3c34-8494-07cab70af296.json b/test/data/enm/study-FCSV-4204bf57-51eb-3c34-8494-07cab70af296.json
new file mode 100644
index 0000000..8983145
--- /dev/null
+++ b/test/data/enm/study-FCSV-4204bf57-51eb-3c34-8494-07cab70af296.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4204bf57-51eb-3c34-8494-07cab70af296",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -20.27,
+        "errQualifier": "sd",
+        "errorValue": 6.1
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.29,
+        "errQualifier": "sd",
+        "errorValue": 2.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4207ea4d-e2d9-3e49-80c6-7be8abbb858a.json b/test/data/enm/study-FCSV-4207ea4d-e2d9-3e49-80c6-7be8abbb858a.json
new file mode 100644
index 0000000..576d849
--- /dev/null
+++ b/test/data/enm/study-FCSV-4207ea4d-e2d9-3e49-80c6-7be8abbb858a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4207ea4d-e2d9-3e49-80c6-7be8abbb858a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":134\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":1\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":420\n}\n,\"P01009\":{\n\t\"loValue\":5\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":14\n}\n,\"P01024\":{\n\t\"loValue\":99\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":28\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":9\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":12\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":8\n}\n,\"P02649\":{\n\t\"loValue\":145\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":40\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":12\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":9\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":92\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":39\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":26\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":15\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":15\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":7\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":23\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":7\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":28\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":11\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":2\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":4\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":8\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":1\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":1\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":14\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":9\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4239537d-05d1-32fe-96ad-2e7c5ce70e0d.json b/test/data/enm/study-FCSV-4239537d-05d1-32fe-96ad-2e7c5ce70e0d.json
new file mode 100644
index 0000000..8e4d924
--- /dev/null
+++ b/test/data/enm/study-FCSV-4239537d-05d1-32fe-96ad-2e7c5ce70e0d.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-4239537d-05d1-32fe-96ad-2e7c5ce70e0d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 75.8,
+        "errQualifier": "sd",
+        "errorValue": 4.31
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 103.94,
+        "errQualifier": "sd",
+        "errorValue": 1.21
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 75.66,
+        "errQualifier": "sd",
+        "errorValue": 4.79
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.11,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79.83,
+        "errQualifier": "sd",
+        "errorValue": 5.95
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101.54,
+        "errQualifier": "sd",
+        "errorValue": 0.16
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79.83,
+        "errQualifier": "sd",
+        "errorValue": 2.8
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 108.14,
+        "errQualifier": "sd",
+        "errorValue": 1.19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-424e229a-41db-3f70-8d27-68d21f7170ea.json b/test/data/enm/study-FCSV-424e229a-41db-3f70-8d27-68d21f7170ea.json
new file mode 100644
index 0000000..f37bd2c
--- /dev/null
+++ b/test/data/enm/study-FCSV-424e229a-41db-3f70-8d27-68d21f7170ea.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-424e229a-41db-3f70-8d27-68d21f7170ea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4261bc2e-c053-3952-973c-ac8ad4d6dc5d.json b/test/data/enm/study-FCSV-4261bc2e-c053-3952-973c-ac8ad4d6dc5d.json
new file mode 100644
index 0000000..4789cdb
--- /dev/null
+++ b/test/data/enm/study-FCSV-4261bc2e-c053-3952-973c-ac8ad4d6dc5d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4261bc2e-c053-3952-973c-ac8ad4d6dc5d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.00058,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -10.757,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4263da67-86a1-3566-b491-4fa8418d72f1.json b/test/data/enm/study-FCSV-4263da67-86a1-3566-b491-4fa8418d72f1.json
new file mode 100644
index 0000000..f86b1a3
--- /dev/null
+++ b/test/data/enm/study-FCSV-4263da67-86a1-3566-b491-4fa8418d72f1.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-4263da67-86a1-3566-b491-4fa8418d72f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 713.408,
+        "errQualifier": "sd",
+        "errorValue": 51.918
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 7,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.019
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-426adae6-b01c-3540-85c8-891b03f76ef8.json b/test/data/enm/study-FCSV-426adae6-b01c-3540-85c8-891b03f76ef8.json
new file mode 100644
index 0000000..8d1fb9c
--- /dev/null
+++ b/test/data/enm/study-FCSV-426adae6-b01c-3540-85c8-891b03f76ef8.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-426adae6-b01c-3540-85c8-891b03f76ef8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":157\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":342\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":4\n}\n,\"P01024\":{\n\t\"loValue\":84\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":12\n}\n,\"P01857\":{\n\t\"loValue\":9\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":157\n}\n,\"P02649\":{\n\t\"loValue\":177\n}\n,\"P02652\":{\n\t\"loValue\":24\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":6\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":1\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":6\n}\n,\"P04004\":{\n\t\"loValue\":78\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":116\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":2\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":15\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":28\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":9\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":28\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":1\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":6\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":5\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":8\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":13\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":2\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":11\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":2\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":3\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-42d78574-6945-3e20-8410-f72f3d795878.json b/test/data/enm/study-FCSV-42d78574-6945-3e20-8410-f72f3d795878.json
new file mode 100644
index 0000000..48a31fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-42d78574-6945-3e20-8410-f72f3d795878.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-42d78574-6945-3e20-8410-f72f3d795878",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.254,
+        "errQualifier": "sd",
+        "errorValue": 0.044
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.975,
+        "errQualifier": "std",
+        "errorValue": 0.248
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-434df75f-8795-374b-a602-f75325f81b42.json b/test/data/enm/study-FCSV-434df75f-8795-374b-a602-f75325f81b42.json
new file mode 100644
index 0000000..2a3d470
--- /dev/null
+++ b/test/data/enm/study-FCSV-434df75f-8795-374b-a602-f75325f81b42.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-434df75f-8795-374b-a602-f75325f81b42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "4-Mercaptobenzoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-438555cf-2eda-3b26-b415-4b22efb19ac5.json b/test/data/enm/study-FCSV-438555cf-2eda-3b26-b415-4b22efb19ac5.json
new file mode 100644
index 0000000..7b5781b
--- /dev/null
+++ b/test/data/enm/study-FCSV-438555cf-2eda-3b26-b415-4b22efb19ac5.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-438555cf-2eda-3b26-b415-4b22efb19ac5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.36,
+        "errQualifier": "sd",
+        "errorValue": 0.169
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4386ec4e-d982-3b1f-9a7f-ba6fc3df4cc6.json b/test/data/enm/study-FCSV-4386ec4e-d982-3b1f-9a7f-ba6fc3df4cc6.json
new file mode 100644
index 0000000..c7ce208
--- /dev/null
+++ b/test/data/enm/study-FCSV-4386ec4e-d982-3b1f-9a7f-ba6fc3df4cc6.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4386ec4e-d982-3b1f-9a7f-ba6fc3df4cc6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.328,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.325,
+        "errQualifier": "sd",
+        "errorValue": 0.034
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.93,
+        "errQualifier": "sd",
+        "errorValue": 0.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-43fa5449-0b60-3dc8-9d75-7d61d5258a4f.json b/test/data/enm/study-FCSV-43fa5449-0b60-3dc8-9d75-7d61d5258a4f.json
new file mode 100644
index 0000000..4e751b4
--- /dev/null
+++ b/test/data/enm/study-FCSV-43fa5449-0b60-3dc8-9d75-7d61d5258a4f.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-43fa5449-0b60-3dc8-9d75-7d61d5258a4f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 659.098,
+        "errQualifier": "sd",
+        "errorValue": 78.05
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.059
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-44906023-e829-37b7-b544-83044e775bed.json b/test/data/enm/study-FCSV-44906023-e829-37b7-b544-83044e775bed.json
new file mode 100644
index 0000000..fe537d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-44906023-e829-37b7-b544-83044e775bed.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-44906023-e829-37b7-b544-83044e775bed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-44b78317-7527-3d66-b67d-6e95767bb8af.json b/test/data/enm/study-FCSV-44b78317-7527-3d66-b67d-6e95767bb8af.json
new file mode 100644
index 0000000..6708579
--- /dev/null
+++ b/test/data/enm/study-FCSV-44b78317-7527-3d66-b67d-6e95767bb8af.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-44b78317-7527-3d66-b67d-6e95767bb8af",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 271.517,
+        "errQualifier": "sd",
+        "errorValue": 0.048
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-44dee36b-cae6-3c07-9f5c-942beea6759e.json b/test/data/enm/study-FCSV-44dee36b-cae6-3c07-9f5c-942beea6759e.json
new file mode 100644
index 0000000..b700612
--- /dev/null
+++ b/test/data/enm/study-FCSV-44dee36b-cae6-3c07-9f5c-942beea6759e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-44dee36b-cae6-3c07-9f5c-942beea6759e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":4\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":146\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":422\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":9\n}\n,\"P01024\":{\n\t\"loValue\":90\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":7\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":8\n}\n,\"P01857\":{\n\t\"loValue\":5\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":4\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":47\n}\n,\"P02649\":{\n\t\"loValue\":154\n}\n,\"P02652\":{\n\t\"loValue\":18\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":3\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":5\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":86\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":44\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":62\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":14\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":14\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":12\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":12\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":3\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":1\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":11\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":1\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":17\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":8\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":7\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":1\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":9\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":6\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":2\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4506822c-0df9-3a00-b387-fb4196503ee1.json b/test/data/enm/study-FCSV-4506822c-0df9-3a00-b387-fb4196503ee1.json
new file mode 100644
index 0000000..476ca12
--- /dev/null
+++ b/test/data/enm/study-FCSV-4506822c-0df9-3a00-b387-fb4196503ee1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4506822c-0df9-3a00-b387-fb4196503ee1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -28.75,
+        "errQualifier": "sd",
+        "errorValue": 5
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.72,
+        "errQualifier": "sd",
+        "errorValue": 2.85
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-450a5f84-126b-3aed-b8ad-271b21b6ed25.json b/test/data/enm/study-FCSV-450a5f84-126b-3aed-b8ad-271b21b6ed25.json
new file mode 100644
index 0000000..e67acfc
--- /dev/null
+++ b/test/data/enm/study-FCSV-450a5f84-126b-3aed-b8ad-271b21b6ed25.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-450a5f84-126b-3aed-b8ad-271b21b6ed25",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.271,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.349,
+        "errQualifier": "sd",
+        "errorValue": 0.033
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 543.07,
+        "errQualifier": "sd",
+        "errorValue": 0.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4534436c-1075-3648-9849-07c997a73007.json b/test/data/enm/study-FCSV-4534436c-1075-3648-9849-07c997a73007.json
new file mode 100644
index 0000000..47ccd57
--- /dev/null
+++ b/test/data/enm/study-FCSV-4534436c-1075-3648-9849-07c997a73007.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-4534436c-1075-3648-9849-07c997a73007",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.4,
+        "errQualifier": "sd",
+        "errorValue": 0.14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-453b7dfe-f6f6-3f84-b5db-414eb34cc03d.json b/test/data/enm/study-FCSV-453b7dfe-f6f6-3f84-b5db-414eb34cc03d.json
new file mode 100644
index 0000000..5d775dd
--- /dev/null
+++ b/test/data/enm/study-FCSV-453b7dfe-f6f6-3f84-b5db-414eb34cc03d.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-453b7dfe-f6f6-3f84-b5db-414eb34cc03d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -28.83,
+        "errQualifier": "sd",
+        "errorValue": 12.45
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -12.15,
+        "errQualifier": "sd",
+        "errorValue": 6.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-45403c3e-e2f3-31a1-9d0b-9ab93b3bf243.json b/test/data/enm/study-FCSV-45403c3e-e2f3-31a1-9d0b-9ab93b3bf243.json
new file mode 100644
index 0000000..eac135f
--- /dev/null
+++ b/test/data/enm/study-FCSV-45403c3e-e2f3-31a1-9d0b-9ab93b3bf243.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-45403c3e-e2f3-31a1-9d0b-9ab93b3bf243",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.291,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.396,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518,
+        "errQualifier": "sd",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4579867e-c538-3093-912e-800d87418180.json b/test/data/enm/study-FCSV-4579867e-c538-3093-912e-800d87418180.json
new file mode 100644
index 0000000..6711070
--- /dev/null
+++ b/test/data/enm/study-FCSV-4579867e-c538-3093-912e-800d87418180.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4579867e-c538-3093-912e-800d87418180",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":1\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":4\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":0\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":4\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":3\n}\n,\"P01008\":{\n\t\"loValue\":16\n}\n,\"P01009\":{\n\t\"loValue\":11\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":3\n}\n,\"P01024\":{\n\t\"loValue\":703\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":33\n}\n,\"P01857\":{\n\t\"loValue\":19\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":32\n}\n,\"P01876\":{\n\t\"loValue\":16\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":17\n}\n,\"P02649\":{\n\t\"loValue\":10\n}\n,\"P02652\":{\n\t\"loValue\":3\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":3\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":1\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":6\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":2\n}\n,\"P02787\":{\n\t\"loValue\":14\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":1\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":5\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":66\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":1\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":1\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":1\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":1\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":2\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":5\n}\n,\"P08519\":{\n\t\"loValue\":2\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":16\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":1\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":2\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":38\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":1\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4616dfcd-0c8d-3582-9053-da73baeaab74.json b/test/data/enm/study-FCSV-4616dfcd-0c8d-3582-9053-da73baeaab74.json
new file mode 100644
index 0000000..7861795
--- /dev/null
+++ b/test/data/enm/study-FCSV-4616dfcd-0c8d-3582-9053-da73baeaab74.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4616dfcd-0c8d-3582-9053-da73baeaab74",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-46465b1f-0e44-35c5-afc5-1203acbbbe9a.json b/test/data/enm/study-FCSV-46465b1f-0e44-35c5-afc5-1203acbbbe9a.json
new file mode 100644
index 0000000..c87c5ca
--- /dev/null
+++ b/test/data/enm/study-FCSV-46465b1f-0e44-35c5-afc5-1203acbbbe9a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-46465b1f-0e44-35c5-afc5-1203acbbbe9a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.024,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.396,
+        "errQualifier": "std",
+        "errorValue": 0.874
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-464c7d5f-d3a5-3edc-a57a-6f8f0e7067e5.json b/test/data/enm/study-FCSV-464c7d5f-d3a5-3edc-a57a-6f8f0e7067e5.json
new file mode 100644
index 0000000..8592a0b
--- /dev/null
+++ b/test/data/enm/study-FCSV-464c7d5f-d3a5-3edc-a57a-6f8f0e7067e5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-464c7d5f-d3a5-3edc-a57a-6f8f0e7067e5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":6\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":12\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":190\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":11\n}\n,\"P00742\":{\n\t\"loValue\":100\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":7\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":260\n}\n,\"P01009\":{\n\t\"loValue\":14\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":16\n}\n,\"P01024\":{\n\t\"loValue\":70\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":56\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":20\n}\n,\"P01857\":{\n\t\"loValue\":19\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":29\n}\n,\"P01876\":{\n\t\"loValue\":18\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":148\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":101\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":6\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":16\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":21\n}\n,\"P03951\":{\n\t\"loValue\":17\n}\n,\"P03952\":{\n\t\"loValue\":6\n}\n,\"P04003\":{\n\t\"loValue\":199\n}\n,\"P04004\":{\n\t\"loValue\":79\n}\n,\"P04070\":{\n\t\"loValue\":3\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":87\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":73\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":4\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":23\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":18\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":73\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":5\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":6\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":60\n}\n,\"P0C0L5\":{\n\t\"loValue\":7\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":8\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":13\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":7\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":1\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":7\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":2\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":1\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":15\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":11\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":6\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":1\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":14\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":2\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":6\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":1\n}\n,\"Q14624\":{\n\t\"loValue\":7\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":2\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":20\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":5\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":1\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":4\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":19\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":1\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4673d1d7-35db-33f4-8db8-106e33b507c7.json b/test/data/enm/study-FCSV-4673d1d7-35db-33f4-8db8-106e33b507c7.json
new file mode 100644
index 0000000..21e5507
--- /dev/null
+++ b/test/data/enm/study-FCSV-4673d1d7-35db-33f4-8db8-106e33b507c7.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4673d1d7-35db-33f4-8db8-106e33b507c7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.71,
+        "errQualifier": "sd",
+        "errorValue": 2.28
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.45,
+        "errQualifier": "sd",
+        "errorValue": 3.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4695730f-2d82-3bd9-91e3-1b5186b42092.json b/test/data/enm/study-FCSV-4695730f-2d82-3bd9-91e3-1b5186b42092.json
new file mode 100644
index 0000000..d370581
--- /dev/null
+++ b/test/data/enm/study-FCSV-4695730f-2d82-3bd9-91e3-1b5186b42092.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4695730f-2d82-3bd9-91e3-1b5186b42092",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.1,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.081,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-46df40fd-b2d3-3e8b-9687-c8db09da32dc.json b/test/data/enm/study-FCSV-46df40fd-b2d3-3e8b-9687-c8db09da32dc.json
new file mode 100644
index 0000000..a585dde
--- /dev/null
+++ b/test/data/enm/study-FCSV-46df40fd-b2d3-3e8b-9687-c8db09da32dc.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-46df40fd-b2d3-3e8b-9687-c8db09da32dc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.309,
+        "errQualifier": "sd",
+        "errorValue": 0.188
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.209,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4727ef7c-b1df-3414-9852-a7df6d4081b4.json b/test/data/enm/study-FCSV-4727ef7c-b1df-3414-9852-a7df6d4081b4.json
new file mode 100644
index 0000000..ff7adbb
--- /dev/null
+++ b/test/data/enm/study-FCSV-4727ef7c-b1df-3414-9852-a7df6d4081b4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4727ef7c-b1df-3414-9852-a7df6d4081b4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":3\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":2\n}\n,\"P00451\":{\n\t\"loValue\":2\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":524\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":65\n}\n,\"P00742\":{\n\t\"loValue\":211\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":105\n}\n,\"P01009\":{\n\t\"loValue\":49\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":11\n}\n,\"P01024\":{\n\t\"loValue\":55\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":34\n}\n,\"P01857\":{\n\t\"loValue\":24\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":18\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":64\n}\n,\"P02649\":{\n\t\"loValue\":39\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":8\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":2\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":71\n}\n,\"P02774\":{\n\t\"loValue\":3\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":10\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":46\n}\n,\"P04004\":{\n\t\"loValue\":177\n}\n,\"P04070\":{\n\t\"loValue\":65\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":31\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":5\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":4\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":30\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":55\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":18\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":23\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":47\n}\n,\"P0C0L5\":{\n\t\"loValue\":8\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":4\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":19\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":14\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":3\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":20\n}\n,\"P19827\":{\n\t\"loValue\":2\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":4\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":2\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":2\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":34\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":1\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":4\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":3\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":10\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":7\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":20\n}\n,\"Q14624\":{\n\t\"loValue\":4\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":1\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":1\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":1\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":6\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":4\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":1\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4744a190-fcb4-3582-8cec-dae9ca725f42.json b/test/data/enm/study-FCSV-4744a190-fcb4-3582-8cec-dae9ca725f42.json
new file mode 100644
index 0000000..2650156
--- /dev/null
+++ b/test/data/enm/study-FCSV-4744a190-fcb4-3582-8cec-dae9ca725f42.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4744a190-fcb4-3582-8cec-dae9ca725f42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -33.12,
+        "errQualifier": "sd",
+        "errorValue": 2.07
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.36,
+        "errQualifier": "sd",
+        "errorValue": 2.18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4749539d-925c-3454-97a3-21f53f25f264.json b/test/data/enm/study-FCSV-4749539d-925c-3454-97a3-21f53f25f264.json
new file mode 100644
index 0000000..5b4b316
--- /dev/null
+++ b/test/data/enm/study-FCSV-4749539d-925c-3454-97a3-21f53f25f264.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4749539d-925c-3454-97a3-21f53f25f264",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-47c35ce0-48c5-3c02-8a7f-90445283ebc0.json b/test/data/enm/study-FCSV-47c35ce0-48c5-3c02-8a7f-90445283ebc0.json
new file mode 100644
index 0000000..07b69e2
--- /dev/null
+++ b/test/data/enm/study-FCSV-47c35ce0-48c5-3c02-8a7f-90445283ebc0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-47c35ce0-48c5-3c02-8a7f-90445283ebc0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.025,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.304,
+        "errQualifier": "std",
+        "errorValue": 0.836
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-47cea58f-f8ae-32d3-a1fb-93cc74821a67.json b/test/data/enm/study-FCSV-47cea58f-f8ae-32d3-a1fb-93cc74821a67.json
new file mode 100644
index 0000000..2c78aca
--- /dev/null
+++ b/test/data/enm/study-FCSV-47cea58f-f8ae-32d3-a1fb-93cc74821a67.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-47cea58f-f8ae-32d3-a1fb-93cc74821a67",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 18.85,
+        "errQualifier": "sd",
+        "errorValue": 5.29
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.75,
+        "errQualifier": "sd",
+        "errorValue": 4.55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4825b545-4ef5-3ed4-9bf2-f9a830e19774.json b/test/data/enm/study-FCSV-4825b545-4ef5-3ed4-9bf2-f9a830e19774.json
new file mode 100644
index 0000000..df51164
--- /dev/null
+++ b/test/data/enm/study-FCSV-4825b545-4ef5-3ed4-9bf2-f9a830e19774.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-4825b545-4ef5-3ed4-9bf2-f9a830e19774",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.57,
+        "errQualifier": "sd",
+        "errorValue": 0.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4845f0f7-0f60-3f76-89d5-0bfe23d69665.json b/test/data/enm/study-FCSV-4845f0f7-0f60-3f76-89d5-0bfe23d69665.json
new file mode 100644
index 0000000..8ef5893
--- /dev/null
+++ b/test/data/enm/study-FCSV-4845f0f7-0f60-3f76-89d5-0bfe23d69665.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-4845f0f7-0f60-3f76-89d5-0bfe23d69665",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "poly(vinyl alcohol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-488bbc52-0e1d-38fe-9d80-570396f0b715.json b/test/data/enm/study-FCSV-488bbc52-0e1d-38fe-9d80-570396f0b715.json
new file mode 100644
index 0000000..aec75e1
--- /dev/null
+++ b/test/data/enm/study-FCSV-488bbc52-0e1d-38fe-9d80-570396f0b715.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-488bbc52-0e1d-38fe-9d80-570396f0b715",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 82.41,
+        "errQualifier": "sd",
+        "errorValue": 85.07
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.93,
+        "errQualifier": "sd",
+        "errorValue": 7.88
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.08,
+        "errQualifier": "sd",
+        "errorValue": 13.03
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.04,
+        "errQualifier": "sd",
+        "errorValue": 7.8
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.31,
+        "errQualifier": "sd",
+        "errorValue": 4.92
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.7,
+        "errQualifier": "sd",
+        "errorValue": 3.94
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.31,
+        "errQualifier": "sd",
+        "errorValue": 60.63
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 86.81,
+        "errQualifier": "sd",
+        "errorValue": 16.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4919c250-699f-33a0-9b87-55dabbf41cb9.json b/test/data/enm/study-FCSV-4919c250-699f-33a0-9b87-55dabbf41cb9.json
new file mode 100644
index 0000000..b279070
--- /dev/null
+++ b/test/data/enm/study-FCSV-4919c250-699f-33a0-9b87-55dabbf41cb9.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4919c250-699f-33a0-9b87-55dabbf41cb9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":14\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":6\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":9\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":66\n}\n,\"P00736\":{\n\t\"loValue\":3\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":9\n}\n,\"P00747\":{\n\t\"loValue\":27\n}\n,\"P00748\":{\n\t\"loValue\":10\n}\n,\"P00751\":{\n\t\"loValue\":20\n}\n,\"P01008\":{\n\t\"loValue\":92\n}\n,\"P01009\":{\n\t\"loValue\":14\n}\n,\"P01011\":{\n\t\"loValue\":7\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":21\n}\n,\"P01024\":{\n\t\"loValue\":275\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":229\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":1\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":2\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":42\n}\n,\"P01857\":{\n\t\"loValue\":71\n}\n,\"P01859\":{\n\t\"loValue\":27\n}\n,\"P01860\":{\n\t\"loValue\":17\n}\n,\"P01861\":{\n\t\"loValue\":5\n}\n,\"P01871\":{\n\t\"loValue\":15\n}\n,\"P01876\":{\n\t\"loValue\":32\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":3\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":47\n}\n,\"P02649\":{\n\t\"loValue\":35\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":5\n}\n,\"P02656\":{\n\t\"loValue\":10\n}\n,\"P02671\":{\n\t\"loValue\":23\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":12\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":3\n}\n,\"P02747\":{\n\t\"loValue\":2\n}\n,\"P02748\":{\n\t\"loValue\":7\n}\n,\"P02749\":{\n\t\"loValue\":46\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":10\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":8\n}\n,\"P02775\":{\n\t\"loValue\":6\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":46\n}\n,\"P02788\":{\n\t\"loValue\":4\n}\n,\"P02790\":{\n\t\"loValue\":24\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":4\n}\n,\"P03951\":{\n\t\"loValue\":123\n}\n,\"P03952\":{\n\t\"loValue\":55\n}\n,\"P04003\":{\n\t\"loValue\":32\n}\n,\"P04004\":{\n\t\"loValue\":45\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":3\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":76\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":3\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":37\n}\n,\"P05155\":{\n\t\"loValue\":14\n}\n,\"P05156\":{\n\t\"loValue\":9\n}\n,\"P05452\":{\n\t\"loValue\":20\n}\n,\"P05546\":{\n\t\"loValue\":9\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":80\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":2\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":20\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":3\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":92\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":2\n}\n,\"P0C0L4\":{\n\t\"loValue\":111\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":19\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":9\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":8\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":13\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":6\n}\n,\"P18065\":{\n\t\"loValue\":8\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":14\n}\n,\"P19827\":{\n\t\"loValue\":7\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":2\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":2\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":2\n}\n,\"P22692\":{\n\t\"loValue\":7\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":2\n}\n,\"P24593\":{\n\t\"loValue\":8\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":2\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":8\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":4\n}\n,\"P36980\":{\n\t\"loValue\":2\n}\n,\"P39060\":{\n\t\"loValue\":4\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":12\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":2\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":5\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":26\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":4\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":167\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":1\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":55\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":7\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":1\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":1\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":1\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4926079e-0b48-39a0-881a-8a844ab94e56.json b/test/data/enm/study-FCSV-4926079e-0b48-39a0-881a-8a844ab94e56.json
new file mode 100644
index 0000000..ca506a9
--- /dev/null
+++ b/test/data/enm/study-FCSV-4926079e-0b48-39a0-881a-8a844ab94e56.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4926079e-0b48-39a0-881a-8a844ab94e56",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -12.29,
+        "errQualifier": "sd",
+        "errorValue": 6.38
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.48,
+        "errQualifier": "sd",
+        "errorValue": 3.62
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-49449258-3524-3f04-88fb-6a02d24506ba.json b/test/data/enm/study-FCSV-49449258-3524-3f04-88fb-6a02d24506ba.json
new file mode 100644
index 0000000..55cf882
--- /dev/null
+++ b/test/data/enm/study-FCSV-49449258-3524-3f04-88fb-6a02d24506ba.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-49449258-3524-3f04-88fb-6a02d24506ba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.735,
+        "errQualifier": "sd",
+        "errorValue": 0.097
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-496368d1-6170-3d46-b6fc-d9eb7077657f.json b/test/data/enm/study-FCSV-496368d1-6170-3d46-b6fc-d9eb7077657f.json
new file mode 100644
index 0000000..c61de78
--- /dev/null
+++ b/test/data/enm/study-FCSV-496368d1-6170-3d46-b6fc-d9eb7077657f.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-496368d1-6170-3d46-b6fc-d9eb7077657f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.68,
+        "errQualifier": "sd",
+        "errorValue": 1.95
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.71,
+        "errQualifier": "sd",
+        "errorValue": 2.43
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-496c08c4-4109-3bba-97c8-fa7e5920544f.json b/test/data/enm/study-FCSV-496c08c4-4109-3bba-97c8-fa7e5920544f.json
new file mode 100644
index 0000000..8e88238
--- /dev/null
+++ b/test/data/enm/study-FCSV-496c08c4-4109-3bba-97c8-fa7e5920544f.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-496c08c4-4109-3bba-97c8-fa7e5920544f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.032,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.975,
+        "errQualifier": "std",
+        "errorValue": 0.525
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-49a1fa8d-d3f2-3fcd-9ab7-7b7dbab14ec7.json b/test/data/enm/study-FCSV-49a1fa8d-d3f2-3fcd-9ab7-7b7dbab14ec7.json
new file mode 100644
index 0000000..b9e6717
--- /dev/null
+++ b/test/data/enm/study-FCSV-49a1fa8d-d3f2-3fcd-9ab7-7b7dbab14ec7.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-49a1fa8d-d3f2-3fcd-9ab7-7b7dbab14ec7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 959.668,
+        "errQualifier": "sd",
+        "errorValue": 24.982
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.057
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-49c6274d-4eb2-398a-a798-22e1ac1c646a.json b/test/data/enm/study-FCSV-49c6274d-4eb2-398a-a798-22e1ac1c646a.json
new file mode 100644
index 0000000..f3e17b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-49c6274d-4eb2-398a-a798-22e1ac1c646a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-49c6274d-4eb2-398a-a798-22e1ac1c646a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Carboxymethyl-poly(ethylene glycol)-thiol (5kDa) (low density)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-49ed74d5-6abb-313f-a291-bda7e81a326a.json b/test/data/enm/study-FCSV-49ed74d5-6abb-313f-a291-bda7e81a326a.json
new file mode 100644
index 0000000..6fc2814
--- /dev/null
+++ b/test/data/enm/study-FCSV-49ed74d5-6abb-313f-a291-bda7e81a326a.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-49ed74d5-6abb-313f-a291-bda7e81a326a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 50.24,
+        "errQualifier": "sd",
+        "errorValue": 1.9
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 47,
+        "errQualifier": "sd",
+        "errorValue": 2.06
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42.83,
+        "errQualifier": "sd",
+        "errorValue": 11.91
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.17,
+        "errQualifier": "sd",
+        "errorValue": 4.22
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.3,
+        "errQualifier": "sd",
+        "errorValue": 12.35
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.75,
+        "errQualifier": "sd",
+        "errorValue": 4.71
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.3,
+        "errQualifier": "sd",
+        "errorValue": 0.98
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 53.84,
+        "errQualifier": "sd",
+        "errorValue": 0.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a03f43d-28c0-3641-ad65-83516a35cad6.json b/test/data/enm/study-FCSV-4a03f43d-28c0-3641-ad65-83516a35cad6.json
new file mode 100644
index 0000000..5b34051
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a03f43d-28c0-3641-ad65-83516a35cad6.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4a03f43d-28c0-3641-ad65-83516a35cad6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.215,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.226,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.03,
+        "errQualifier": "sd",
+        "errorValue": 0.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a22e1c0-e308-35b0-9bc2-b965c4aff02c.json b/test/data/enm/study-FCSV-4a22e1c0-e308-35b0-9bc2-b965c4aff02c.json
new file mode 100644
index 0000000..950a21b
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a22e1c0-e308-35b0-9bc2-b965c4aff02c.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4a22e1c0-e308-35b0-9bc2-b965c4aff02c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.213,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.269,
+        "errQualifier": "sd",
+        "errorValue": 0.052
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.07,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a476c89-367d-307a-905d-9e56a4ef46a7.json b/test/data/enm/study-FCSV-4a476c89-367d-307a-905d-9e56a4ef46a7.json
new file mode 100644
index 0000000..5dd497d
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a476c89-367d-307a-905d-9e56a4ef46a7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-4a476c89-367d-307a-905d-9e56a4ef46a7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.895,
+        "errQualifier": "sd",
+        "errorValue": 0.72
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a65f8c8-2425-3c37-ac20-058541a79d25.json b/test/data/enm/study-FCSV-4a65f8c8-2425-3c37-ac20-058541a79d25.json
new file mode 100644
index 0000000..4ec1594
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a65f8c8-2425-3c37-ac20-058541a79d25.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4a65f8c8-2425-3c37-ac20-058541a79d25",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.092,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.086,
+        "errQualifier": "sd",
+        "errorValue": 0.075
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a8f0b92-ce55-323a-a96b-b24b26c9dcba.json b/test/data/enm/study-FCSV-4a8f0b92-ce55-323a-a96b-b24b26c9dcba.json
new file mode 100644
index 0000000..579ffc5
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a8f0b92-ce55-323a-a96b-b24b26c9dcba.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4a8f0b92-ce55-323a-a96b-b24b26c9dcba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.057,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.07,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4a9b7286-0fc1-35e9-b5c1-36185d2617ce.json b/test/data/enm/study-FCSV-4a9b7286-0fc1-35e9-b5c1-36185d2617ce.json
new file mode 100644
index 0000000..40ec051
--- /dev/null
+++ b/test/data/enm/study-FCSV-4a9b7286-0fc1-35e9-b5c1-36185d2617ce.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4a9b7286-0fc1-35e9-b5c1-36185d2617ce",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":124\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":3\n}\n,\"P00747\":{\n\t\"loValue\":8\n}\n,\"P00748\":{\n\t\"loValue\":5\n}\n,\"P00751\":{\n\t\"loValue\":8\n}\n,\"P01008\":{\n\t\"loValue\":249\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":29\n}\n,\"P01024\":{\n\t\"loValue\":282\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":227\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":26\n}\n,\"P01857\":{\n\t\"loValue\":31\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":9\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":14\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":30\n}\n,\"P02649\":{\n\t\"loValue\":73\n}\n,\"P02652\":{\n\t\"loValue\":10\n}\n,\"P02654\":{\n\t\"loValue\":3\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":6\n}\n,\"P02671\":{\n\t\"loValue\":4\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":7\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":6\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":2\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":33\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":4\n}\n,\"P02788\":{\n\t\"loValue\":11\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":165\n}\n,\"P03952\":{\n\t\"loValue\":43\n}\n,\"P04003\":{\n\t\"loValue\":16\n}\n,\"P04004\":{\n\t\"loValue\":109\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":34\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":95\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":3\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":48\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":6\n}\n,\"P05452\":{\n\t\"loValue\":7\n}\n,\"P05546\":{\n\t\"loValue\":17\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":37\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":2\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":9\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":61\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":1\n}\n,\"P0C0L4\":{\n\t\"loValue\":163\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":4\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":18\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":11\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":3\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":6\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":5\n}\n,\"P18065\":{\n\t\"loValue\":11\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":1\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":6\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":2\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":3\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":1\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":1\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":14\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":5\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":16\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":6\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":147\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":1\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":2\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":3\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":1\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":61\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":4\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":1\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":18\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4aee8d09-71de-39c2-94fc-dbd28f8401aa.json b/test/data/enm/study-FCSV-4aee8d09-71de-39c2-94fc-dbd28f8401aa.json
new file mode 100644
index 0000000..b6e75ea
--- /dev/null
+++ b/test/data/enm/study-FCSV-4aee8d09-71de-39c2-94fc-dbd28f8401aa.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4aee8d09-71de-39c2-94fc-dbd28f8401aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "11-Mercaptoundecanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4b98ab7e-e6ef-3022-9aab-000f32abf5e4.json b/test/data/enm/study-FCSV-4b98ab7e-e6ef-3022-9aab-000f32abf5e4.json
new file mode 100644
index 0000000..0ec8902
--- /dev/null
+++ b/test/data/enm/study-FCSV-4b98ab7e-e6ef-3022-9aab-000f32abf5e4.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4b98ab7e-e6ef-3022-9aab-000f32abf5e4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (20kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4bcc50c2-71a3-352d-a4d9-0ba9711c062b.json b/test/data/enm/study-FCSV-4bcc50c2-71a3-352d-a4d9-0ba9711c062b.json
new file mode 100644
index 0000000..611bf46
--- /dev/null
+++ b/test/data/enm/study-FCSV-4bcc50c2-71a3-352d-a4d9-0ba9711c062b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4bcc50c2-71a3-352d-a4d9-0ba9711c062b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Hexadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4be61e91-7677-324d-a8bc-aa9139f77cc8.json b/test/data/enm/study-FCSV-4be61e91-7677-324d-a8bc-aa9139f77cc8.json
new file mode 100644
index 0000000..1e23c9d
--- /dev/null
+++ b/test/data/enm/study-FCSV-4be61e91-7677-324d-a8bc-aa9139f77cc8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4be61e91-7677-324d-a8bc-aa9139f77cc8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -24.17,
+        "errQualifier": "sd",
+        "errorValue": 3.32
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.71,
+        "errQualifier": "sd",
+        "errorValue": 1.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4bfaf803-0742-3138-8db1-e91ecaf3cc88.json b/test/data/enm/study-FCSV-4bfaf803-0742-3138-8db1-e91ecaf3cc88.json
new file mode 100644
index 0000000..148eee4
--- /dev/null
+++ b/test/data/enm/study-FCSV-4bfaf803-0742-3138-8db1-e91ecaf3cc88.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-4bfaf803-0742-3138-8db1-e91ecaf3cc88",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "aminopropanol-modified poly(styrene-co-maleic anhydride)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4c60c5cb-d554-30bf-ae7a-450fbcf0adc5.json b/test/data/enm/study-FCSV-4c60c5cb-d554-30bf-ae7a-450fbcf0adc5.json
new file mode 100644
index 0000000..d4ae81c
--- /dev/null
+++ b/test/data/enm/study-FCSV-4c60c5cb-d554-30bf-ae7a-450fbcf0adc5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4c60c5cb-d554-30bf-ae7a-450fbcf0adc5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4c732acb-a2ca-3b37-bf47-6288cc110393.json b/test/data/enm/study-FCSV-4c732acb-a2ca-3b37-bf47-6288cc110393.json
new file mode 100644
index 0000000..e227fb4
--- /dev/null
+++ b/test/data/enm/study-FCSV-4c732acb-a2ca-3b37-bf47-6288cc110393.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4c732acb-a2ca-3b37-bf47-6288cc110393",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.209,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.272,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 525.8,
+        "errQualifier": "sd",
+        "errorValue": 0.28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4c7ff8ab-d24e-3af5-bcf3-900f74cac47f.json b/test/data/enm/study-FCSV-4c7ff8ab-d24e-3af5-bcf3-900f74cac47f.json
new file mode 100644
index 0000000..86f67c6
--- /dev/null
+++ b/test/data/enm/study-FCSV-4c7ff8ab-d24e-3af5-bcf3-900f74cac47f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4c7ff8ab-d24e-3af5-bcf3-900f74cac47f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.244,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.367,
+        "errQualifier": "sd",
+        "errorValue": 0.064
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.2,
+        "errQualifier": "sd",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4cc491de-ff4c-3a05-aae9-079c674367e1.json b/test/data/enm/study-FCSV-4cc491de-ff4c-3a05-aae9-079c674367e1.json
new file mode 100644
index 0000000..f872f49
--- /dev/null
+++ b/test/data/enm/study-FCSV-4cc491de-ff4c-3a05-aae9-079c674367e1.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4cc491de-ff4c-3a05-aae9-079c674367e1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":243\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":2\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":412\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":69\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":197\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":16\n}\n,\"P01857\":{\n\t\"loValue\":16\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":163\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":8\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":14\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":16\n}\n,\"P03951\":{\n\t\"loValue\":65\n}\n,\"P03952\":{\n\t\"loValue\":12\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":157\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":3\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":188\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":27\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":14\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":7\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":1\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":3\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":17\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":45\n}\n,\"P0C0L5\":{\n\t\"loValue\":10\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":13\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":6\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":7\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":10\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":5\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":10\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":1\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":6\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":2\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":3\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":1\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":12\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":6\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":18\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":1\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":13\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":2\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":4\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4cf4c204-12ee-3655-859e-cbdec74f3178.json b/test/data/enm/study-FCSV-4cf4c204-12ee-3655-859e-cbdec74f3178.json
new file mode 100644
index 0000000..1fdbac4
--- /dev/null
+++ b/test/data/enm/study-FCSV-4cf4c204-12ee-3655-859e-cbdec74f3178.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4cf4c204-12ee-3655-859e-cbdec74f3178",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-phenylalanine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4cf92365-0c15-3538-891e-2a694c614a5a.json b/test/data/enm/study-FCSV-4cf92365-0c15-3538-891e-2a694c614a5a.json
new file mode 100644
index 0000000..8b9dea6
--- /dev/null
+++ b/test/data/enm/study-FCSV-4cf92365-0c15-3538-891e-2a694c614a5a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4cf92365-0c15-3538-891e-2a694c614a5a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.153,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.252,
+        "errQualifier": "sd",
+        "errorValue": 0.065
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4d15b7e5-51d2-37d8-8a25-2b65f327cc3e.json b/test/data/enm/study-FCSV-4d15b7e5-51d2-37d8-8a25-2b65f327cc3e.json
new file mode 100644
index 0000000..d5f91ef
--- /dev/null
+++ b/test/data/enm/study-FCSV-4d15b7e5-51d2-37d8-8a25-2b65f327cc3e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4d15b7e5-51d2-37d8-8a25-2b65f327cc3e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":3\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":8\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":2\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":26\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":10\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":3\n}\n,\"P01857\":{\n\t\"loValue\":7\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":3\n}\n,\"P01876\":{\n\t\"loValue\":4\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":2\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":3\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":4\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":60\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":7\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":2\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":16\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":12\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":5\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":9\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4d652b9d-1244-3fde-bc04-d6c0c1c928f4.json b/test/data/enm/study-FCSV-4d652b9d-1244-3fde-bc04-d6c0c1c928f4.json
new file mode 100644
index 0000000..223acf6
--- /dev/null
+++ b/test/data/enm/study-FCSV-4d652b9d-1244-3fde-bc04-d6c0c1c928f4.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4d652b9d-1244-3fde-bc04-d6c0c1c928f4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -25.65,
+        "errQualifier": "sd",
+        "errorValue": 3.65
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.65,
+        "errQualifier": "sd",
+        "errorValue": 0.92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4d69a24a-2e6a-3fa9-bc53-fcc67f2370db.json b/test/data/enm/study-FCSV-4d69a24a-2e6a-3fa9-bc53-fcc67f2370db.json
new file mode 100644
index 0000000..db815ee
--- /dev/null
+++ b/test/data/enm/study-FCSV-4d69a24a-2e6a-3fa9-bc53-fcc67f2370db.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4d69a24a-2e6a-3fa9-bc53-fcc67f2370db",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.03,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.051,
+        "errQualifier": "std",
+        "errorValue": 1.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4d71d712-6556-3d9a-b334-d1a684d8b0f0.json b/test/data/enm/study-FCSV-4d71d712-6556-3d9a-b334-d1a684d8b0f0.json
new file mode 100644
index 0000000..a2b9b1e
--- /dev/null
+++ b/test/data/enm/study-FCSV-4d71d712-6556-3d9a-b334-d1a684d8b0f0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4d71d712-6556-3d9a-b334-d1a684d8b0f0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.194,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.235,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4d92b0d2-e5cc-3e46-925e-c278bd406af1.json b/test/data/enm/study-FCSV-4d92b0d2-e5cc-3e46-925e-c278bd406af1.json
new file mode 100644
index 0000000..dd7738e
--- /dev/null
+++ b/test/data/enm/study-FCSV-4d92b0d2-e5cc-3e46-925e-c278bd406af1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4d92b0d2-e5cc-3e46-925e-c278bd406af1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4dae550c-6f78-38f0-8e55-6040ae7502f1.json b/test/data/enm/study-FCSV-4dae550c-6f78-38f0-8e55-6040ae7502f1.json
new file mode 100644
index 0000000..5ed8fa2
--- /dev/null
+++ b/test/data/enm/study-FCSV-4dae550c-6f78-38f0-8e55-6040ae7502f1.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4dae550c-6f78-38f0-8e55-6040ae7502f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4db1f8e0-af29-3315-98ce-8a3c0753a306.json b/test/data/enm/study-FCSV-4db1f8e0-af29-3315-98ce-8a3c0753a306.json
new file mode 100644
index 0000000..9876515
--- /dev/null
+++ b/test/data/enm/study-FCSV-4db1f8e0-af29-3315-98ce-8a3c0753a306.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4db1f8e0-af29-3315-98ce-8a3c0753a306",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4dbd0199-6fd8-359e-9766-1e542b3816a5.json b/test/data/enm/study-FCSV-4dbd0199-6fd8-359e-9766-1e542b3816a5.json
new file mode 100644
index 0000000..500c313
--- /dev/null
+++ b/test/data/enm/study-FCSV-4dbd0199-6fd8-359e-9766-1e542b3816a5.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4dbd0199-6fd8-359e-9766-1e542b3816a5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Mercaptoacetic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4dc415c8-947c-39da-8a86-98fd6cb4f765.json b/test/data/enm/study-FCSV-4dc415c8-947c-39da-8a86-98fd6cb4f765.json
new file mode 100644
index 0000000..8eaa3ff
--- /dev/null
+++ b/test/data/enm/study-FCSV-4dc415c8-947c-39da-8a86-98fd6cb4f765.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-4dc415c8-947c-39da-8a86-98fd6cb4f765",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.00049,
+        "errQualifier": "sd",
+        "errorValue": 0.00085
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -10.994,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4e2e1d44-7f63-34c1-8e9d-3dd52ff5e103.json b/test/data/enm/study-FCSV-4e2e1d44-7f63-34c1-8e9d-3dd52ff5e103.json
new file mode 100644
index 0000000..cfee74f
--- /dev/null
+++ b/test/data/enm/study-FCSV-4e2e1d44-7f63-34c1-8e9d-3dd52ff5e103.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-4e2e1d44-7f63-34c1-8e9d-3dd52ff5e103",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.458,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.526,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.28,
+        "errQualifier": "sd",
+        "errorValue": 1.35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4e40e840-836f-3280-bfd0-d22a11220969.json b/test/data/enm/study-FCSV-4e40e840-836f-3280-bfd0-d22a11220969.json
new file mode 100644
index 0000000..25f50fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-4e40e840-836f-3280-bfd0-d22a11220969.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-4e40e840-836f-3280-bfd0-d22a11220969",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4e43c74f-1906-3aee-8892-78a122917dad.json b/test/data/enm/study-FCSV-4e43c74f-1906-3aee-8892-78a122917dad.json
new file mode 100644
index 0000000..f6b86ad
--- /dev/null
+++ b/test/data/enm/study-FCSV-4e43c74f-1906-3aee-8892-78a122917dad.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-4e43c74f-1906-3aee-8892-78a122917dad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.28,
+        "errQualifier": "sd",
+        "errorValue": 1.099
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4e5886f9-8c15-3930-a61f-12dd8755edf5.json b/test/data/enm/study-FCSV-4e5886f9-8c15-3930-a61f-12dd8755edf5.json
new file mode 100644
index 0000000..bc908c4
--- /dev/null
+++ b/test/data/enm/study-FCSV-4e5886f9-8c15-3930-a61f-12dd8755edf5.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4e5886f9-8c15-3930-a61f-12dd8755edf5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.96,
+        "errQualifier": "sd",
+        "errorValue": 2.33
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.63,
+        "errQualifier": "sd",
+        "errorValue": 1.46
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4edb9fbe-fd99-319c-aff9-646f6e033200.json b/test/data/enm/study-FCSV-4edb9fbe-fd99-319c-aff9-646f6e033200.json
new file mode 100644
index 0000000..0dea9da
--- /dev/null
+++ b/test/data/enm/study-FCSV-4edb9fbe-fd99-319c-aff9-646f6e033200.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-4edb9fbe-fd99-319c-aff9-646f6e033200",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 244.228,
+        "errQualifier": "sd",
+        "errorValue": 1.238
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.038
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4f3d8f57-ae4d-30f8-8ec9-4f9b6b03170a.json b/test/data/enm/study-FCSV-4f3d8f57-ae4d-30f8-8ec9-4f9b6b03170a.json
new file mode 100644
index 0000000..a8674d5
--- /dev/null
+++ b/test/data/enm/study-FCSV-4f3d8f57-ae4d-30f8-8ec9-4f9b6b03170a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-4f3d8f57-ae4d-30f8-8ec9-4f9b6b03170a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4f476513-74bf-3baa-900d-54aeb9c06314.json b/test/data/enm/study-FCSV-4f476513-74bf-3baa-900d-54aeb9c06314.json
new file mode 100644
index 0000000..4056f4b
--- /dev/null
+++ b/test/data/enm/study-FCSV-4f476513-74bf-3baa-900d-54aeb9c06314.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4f476513-74bf-3baa-900d-54aeb9c06314",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":3\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":1\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":49\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":10\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":6\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":2\n}\n,\"P01024\":{\n\t\"loValue\":59\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":15\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":1\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":11\n}\n,\"P01876\":{\n\t\"loValue\":4\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":84\n}\n,\"P02649\":{\n\t\"loValue\":157\n}\n,\"P02652\":{\n\t\"loValue\":27\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":9\n}\n,\"P02656\":{\n\t\"loValue\":10\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":2\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":2\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":16\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":56\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":75\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":5\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":19\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":1\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":1\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":44\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":15\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":1\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":4\n}\n,\"P69905\":{\n\t\"loValue\":3\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":2\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":1\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":4\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4f4d4ebe-5b62-36f4-a525-d94e5746a543.json b/test/data/enm/study-FCSV-4f4d4ebe-5b62-36f4-a525-d94e5746a543.json
new file mode 100644
index 0000000..3a01f66
--- /dev/null
+++ b/test/data/enm/study-FCSV-4f4d4ebe-5b62-36f4-a525-d94e5746a543.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-4f4d4ebe-5b62-36f4-a525-d94e5746a543",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -38.62,
+        "errQualifier": "sd",
+        "errorValue": 1.02
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.6,
+        "errQualifier": "sd",
+        "errorValue": 1.72
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4fa8ccfb-20ba-3b6e-9174-627933ae8668.json b/test/data/enm/study-FCSV-4fa8ccfb-20ba-3b6e-9174-627933ae8668.json
new file mode 100644
index 0000000..a5a8831
--- /dev/null
+++ b/test/data/enm/study-FCSV-4fa8ccfb-20ba-3b6e-9174-627933ae8668.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-4fa8ccfb-20ba-3b6e-9174-627933ae8668",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":3\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":6\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":2\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":79\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":1\n}\n,\"P01024\":{\n\t\"loValue\":45\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":18\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":19\n}\n,\"P01857\":{\n\t\"loValue\":15\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":10\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":9\n}\n,\"P02649\":{\n\t\"loValue\":8\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":25\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":5\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":7\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":41\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":20\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":8\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":2\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":1\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":3\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":7\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":15\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5010cfe8-fb56-37c7-ae04-a107a212461c.json b/test/data/enm/study-FCSV-5010cfe8-fb56-37c7-ae04-a107a212461c.json
new file mode 100644
index 0000000..b3e0776
--- /dev/null
+++ b/test/data/enm/study-FCSV-5010cfe8-fb56-37c7-ae04-a107a212461c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5010cfe8-fb56-37c7-ae04-a107a212461c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.005,
+        "errQualifier": "sd",
+        "errorValue": 0.00032
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.551,
+        "errQualifier": "std",
+        "errorValue": 0.086
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5019258b-54d8-3b13-8ecc-94ceff68f456.json b/test/data/enm/study-FCSV-5019258b-54d8-3b13-8ecc-94ceff68f456.json
new file mode 100644
index 0000000..2453c7a
--- /dev/null
+++ b/test/data/enm/study-FCSV-5019258b-54d8-3b13-8ecc-94ceff68f456.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5019258b-54d8-3b13-8ecc-94ceff68f456",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5045ca3a-1e67-3fdf-bc5d-b04ea25e2e43.json b/test/data/enm/study-FCSV-5045ca3a-1e67-3fdf-bc5d-b04ea25e2e43.json
new file mode 100644
index 0000000..041d03e
--- /dev/null
+++ b/test/data/enm/study-FCSV-5045ca3a-1e67-3fdf-bc5d-b04ea25e2e43.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5045ca3a-1e67-3fdf-bc5d-b04ea25e2e43",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.007,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.138,
+        "errQualifier": "std",
+        "errorValue": 0.84
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-50571e1c-213d-3802-beda-6cfa495d0c9d.json b/test/data/enm/study-FCSV-50571e1c-213d-3802-beda-6cfa495d0c9d.json
new file mode 100644
index 0000000..f47c093
--- /dev/null
+++ b/test/data/enm/study-FCSV-50571e1c-213d-3802-beda-6cfa495d0c9d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-50571e1c-213d-3802-beda-6cfa495d0c9d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 238.252,
+        "errQualifier": "sd",
+        "errorValue": 10.092
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.062
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-506c8e75-1a9e-39c7-854f-0cfa89cfedcd.json b/test/data/enm/study-FCSV-506c8e75-1a9e-39c7-854f-0cfa89cfedcd.json
new file mode 100644
index 0000000..8e3c7fe
--- /dev/null
+++ b/test/data/enm/study-FCSV-506c8e75-1a9e-39c7-854f-0cfa89cfedcd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-506c8e75-1a9e-39c7-854f-0cfa89cfedcd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-512d1fe3-798e-3d21-b564-32e0093650f7.json b/test/data/enm/study-FCSV-512d1fe3-798e-3d21-b564-32e0093650f7.json
new file mode 100644
index 0000000..86fc916
--- /dev/null
+++ b/test/data/enm/study-FCSV-512d1fe3-798e-3d21-b564-32e0093650f7.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-512d1fe3-798e-3d21-b564-32e0093650f7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-514c24b5-1484-3373-ab10-92ceede954a6.json b/test/data/enm/study-FCSV-514c24b5-1484-3373-ab10-92ceede954a6.json
new file mode 100644
index 0000000..7768650
--- /dev/null
+++ b/test/data/enm/study-FCSV-514c24b5-1484-3373-ab10-92ceede954a6.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-514c24b5-1484-3373-ab10-92ceede954a6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.557,
+        "errQualifier": "sd",
+        "errorValue": 0.32
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-515c36df-9c6a-321f-8feb-3e1cb25d7c10.json b/test/data/enm/study-FCSV-515c36df-9c6a-321f-8feb-3e1cb25d7c10.json
new file mode 100644
index 0000000..b0ea2ed
--- /dev/null
+++ b/test/data/enm/study-FCSV-515c36df-9c6a-321f-8feb-3e1cb25d7c10.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-515c36df-9c6a-321f-8feb-3e1cb25d7c10",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 912.119,
+        "errQualifier": "sd",
+        "errorValue": 27.894
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5189ea2d-0c6e-3e4d-8738-c4089b8d27f5.json b/test/data/enm/study-FCSV-5189ea2d-0c6e-3e4d-8738-c4089b8d27f5.json
new file mode 100644
index 0000000..cf635bb
--- /dev/null
+++ b/test/data/enm/study-FCSV-5189ea2d-0c6e-3e4d-8738-c4089b8d27f5.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5189ea2d-0c6e-3e4d-8738-c4089b8d27f5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.061,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.161,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-51ae634a-4e91-3e7f-a372-9a917b8b2286.json b/test/data/enm/study-FCSV-51ae634a-4e91-3e7f-a372-9a917b8b2286.json
new file mode 100644
index 0000000..99f77ab
--- /dev/null
+++ b/test/data/enm/study-FCSV-51ae634a-4e91-3e7f-a372-9a917b8b2286.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-51ae634a-4e91-3e7f-a372-9a917b8b2286",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.587,
+        "errQualifier": "sd",
+        "errorValue": 0.319
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-523c5929-3404-3a5b-943d-983ad9dd1f8c.json b/test/data/enm/study-FCSV-523c5929-3404-3a5b-943d-983ad9dd1f8c.json
new file mode 100644
index 0000000..d389be0
--- /dev/null
+++ b/test/data/enm/study-FCSV-523c5929-3404-3a5b-943d-983ad9dd1f8c.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-523c5929-3404-3a5b-943d-983ad9dd1f8c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-52b0569f-0752-3954-988f-b71e5765cfb1.json b/test/data/enm/study-FCSV-52b0569f-0752-3954-988f-b71e5765cfb1.json
new file mode 100644
index 0000000..10eda3e
--- /dev/null
+++ b/test/data/enm/study-FCSV-52b0569f-0752-3954-988f-b71e5765cfb1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-52b0569f-0752-3954-988f-b71e5765cfb1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-52b3235a-2f86-3af8-9e21-d8017d69a74e.json b/test/data/enm/study-FCSV-52b3235a-2f86-3af8-9e21-d8017d69a74e.json
new file mode 100644
index 0000000..fab97a2
--- /dev/null
+++ b/test/data/enm/study-FCSV-52b3235a-2f86-3af8-9e21-d8017d69a74e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-52b3235a-2f86-3af8-9e21-d8017d69a74e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.399,
+        "errQualifier": "sd",
+        "errorValue": 0.136
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.215,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-52e3fd47-0e1f-3186-8f1e-aa0d3cdfd7d1.json b/test/data/enm/study-FCSV-52e3fd47-0e1f-3186-8f1e-aa0d3cdfd7d1.json
new file mode 100644
index 0000000..156c703
--- /dev/null
+++ b/test/data/enm/study-FCSV-52e3fd47-0e1f-3186-8f1e-aa0d3cdfd7d1.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-52e3fd47-0e1f-3186-8f1e-aa0d3cdfd7d1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 892.402,
+        "errQualifier": "sd",
+        "errorValue": 103.346
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.041
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-52f76c20-151c-363a-9d5f-835c2cf10bea.json b/test/data/enm/study-FCSV-52f76c20-151c-363a-9d5f-835c2cf10bea.json
new file mode 100644
index 0000000..b9dec3c
--- /dev/null
+++ b/test/data/enm/study-FCSV-52f76c20-151c-363a-9d5f-835c2cf10bea.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-52f76c20-151c-363a-9d5f-835c2cf10bea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.144,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.154,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5319ce1b-b956-34af-a042-fc00e32a3568.json b/test/data/enm/study-FCSV-5319ce1b-b956-34af-a042-fc00e32a3568.json
new file mode 100644
index 0000000..2510270
--- /dev/null
+++ b/test/data/enm/study-FCSV-5319ce1b-b956-34af-a042-fc00e32a3568.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5319ce1b-b956-34af-a042-fc00e32a3568",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.024,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.381,
+        "errQualifier": "std",
+        "errorValue": 0.549
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5330fa5f-0e9f-3f9c-8996-ef59898a95a8.json b/test/data/enm/study-FCSV-5330fa5f-0e9f-3f9c-8996-ef59898a95a8.json
new file mode 100644
index 0000000..a6452e1
--- /dev/null
+++ b/test/data/enm/study-FCSV-5330fa5f-0e9f-3f9c-8996-ef59898a95a8.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-5330fa5f-0e9f-3f9c-8996-ef59898a95a8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 27.18,
+        "errQualifier": "sd",
+        "errorValue": 6.15
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 127.34,
+        "errQualifier": "sd",
+        "errorValue": 11.98
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.97,
+        "errQualifier": "sd",
+        "errorValue": 1.28
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 145.01,
+        "errQualifier": "sd",
+        "errorValue": 42.34
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.92,
+        "errQualifier": "sd",
+        "errorValue": 0.19
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 97.42,
+        "errQualifier": "sd",
+        "errorValue": 8.61
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.92,
+        "errQualifier": "sd",
+        "errorValue": 12.46
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 139.75,
+        "errQualifier": "sd",
+        "errorValue": 13.22
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-534b4ea7-c129-3663-a41f-3f3cf7b0d0e1.json b/test/data/enm/study-FCSV-534b4ea7-c129-3663-a41f-3f3cf7b0d0e1.json
new file mode 100644
index 0000000..0e1f776
--- /dev/null
+++ b/test/data/enm/study-FCSV-534b4ea7-c129-3663-a41f-3f3cf7b0d0e1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-534b4ea7-c129-3663-a41f-3f3cf7b0d0e1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.32,
+        "errQualifier": "sd",
+        "errorValue": 4.84
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.26,
+        "errQualifier": "sd",
+        "errorValue": 0.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5367211c-e735-318f-9cf9-5c7cabaffc85.json b/test/data/enm/study-FCSV-5367211c-e735-318f-9cf9-5c7cabaffc85.json
new file mode 100644
index 0000000..670a504
--- /dev/null
+++ b/test/data/enm/study-FCSV-5367211c-e735-318f-9cf9-5c7cabaffc85.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5367211c-e735-318f-9cf9-5c7cabaffc85",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated amino-poly(ethylene glycol) (methoxy terminated) (5kDa)*"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-537e3822-d127-3fba-9d50-a735508381aa.json b/test/data/enm/study-FCSV-537e3822-d127-3fba-9d50-a735508381aa.json
new file mode 100644
index 0000000..596005b
--- /dev/null
+++ b/test/data/enm/study-FCSV-537e3822-d127-3fba-9d50-a735508381aa.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-537e3822-d127-3fba-9d50-a735508381aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 75.37,
+        "errQualifier": "sd",
+        "errorValue": 6.04
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 95.18,
+        "errQualifier": "sd",
+        "errorValue": 1.33
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.12,
+        "errQualifier": "sd",
+        "errorValue": 12.97
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 93.72,
+        "errQualifier": "sd",
+        "errorValue": 1.75
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 80.33,
+        "errQualifier": "sd",
+        "errorValue": 13.97
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 86.87,
+        "errQualifier": "sd",
+        "errorValue": 2.51
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 80.33,
+        "errQualifier": "sd",
+        "errorValue": 5.19
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 102.41,
+        "errQualifier": "sd",
+        "errorValue": 2.84
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-53927166-1643-3654-8512-9521aa7f6011.json b/test/data/enm/study-FCSV-53927166-1643-3654-8512-9521aa7f6011.json
new file mode 100644
index 0000000..19cc128
--- /dev/null
+++ b/test/data/enm/study-FCSV-53927166-1643-3654-8512-9521aa7f6011.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-53927166-1643-3654-8512-9521aa7f6011",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 255.11,
+        "errQualifier": "sd",
+        "errorValue": 19.102
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-53ae3b66-3ba0-3982-a6d5-6af0b060423f.json b/test/data/enm/study-FCSV-53ae3b66-3ba0-3982-a6d5-6af0b060423f.json
new file mode 100644
index 0000000..ee77697
--- /dev/null
+++ b/test/data/enm/study-FCSV-53ae3b66-3ba0-3982-a6d5-6af0b060423f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-53ae3b66-3ba0-3982-a6d5-6af0b060423f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-53ffbc53-095a-326b-af01-a12b8b4da9af.json b/test/data/enm/study-FCSV-53ffbc53-095a-326b-af01-a12b8b4da9af.json
new file mode 100644
index 0000000..f6a1f7f
--- /dev/null
+++ b/test/data/enm/study-FCSV-53ffbc53-095a-326b-af01-a12b8b4da9af.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-53ffbc53-095a-326b-af01-a12b8b4da9af",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5443594e-8efe-3ab3-a7d2-f4746a17f6d2.json b/test/data/enm/study-FCSV-5443594e-8efe-3ab3-a7d2-f4746a17f6d2.json
new file mode 100644
index 0000000..91e84ac
--- /dev/null
+++ b/test/data/enm/study-FCSV-5443594e-8efe-3ab3-a7d2-f4746a17f6d2.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-5443594e-8efe-3ab3-a7d2-f4746a17f6d2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 90.22,
+        "errQualifier": "sd",
+        "errorValue": 2.36
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 88.32,
+        "errQualifier": "sd",
+        "errorValue": 2.97
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 88.48,
+        "errQualifier": "sd",
+        "errorValue": 2.58
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 85.31,
+        "errQualifier": "sd",
+        "errorValue": 4.86
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 94.52,
+        "errQualifier": "sd",
+        "errorValue": 4.77
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79.33,
+        "errQualifier": "sd",
+        "errorValue": 8.5
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 94.52,
+        "errQualifier": "sd",
+        "errorValue": 2.18
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 92.46,
+        "errQualifier": "sd",
+        "errorValue": 0.58
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-545f9136-d400-336b-a89d-50be9b392181.json b/test/data/enm/study-FCSV-545f9136-d400-336b-a89d-50be9b392181.json
new file mode 100644
index 0000000..5528196
--- /dev/null
+++ b/test/data/enm/study-FCSV-545f9136-d400-336b-a89d-50be9b392181.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-545f9136-d400-336b-a89d-50be9b392181",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Carboxymethyl-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5462b02b-a422-3611-8948-a5137e29b55b.json b/test/data/enm/study-FCSV-5462b02b-a422-3611-8948-a5137e29b55b.json
new file mode 100644
index 0000000..a95d5fe
--- /dev/null
+++ b/test/data/enm/study-FCSV-5462b02b-a422-3611-8948-a5137e29b55b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5462b02b-a422-3611-8948-a5137e29b55b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.045,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.084,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-54c38205-ea81-3890-aa84-e67cf3d2396a.json b/test/data/enm/study-FCSV-54c38205-ea81-3890-aa84-e67cf3d2396a.json
new file mode 100644
index 0000000..43b558d
--- /dev/null
+++ b/test/data/enm/study-FCSV-54c38205-ea81-3890-aa84-e67cf3d2396a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-54c38205-ea81-3890-aa84-e67cf3d2396a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-555f8e31-ba21-3ba8-bcb2-50c5add11dbd.json b/test/data/enm/study-FCSV-555f8e31-ba21-3ba8-bcb2-50c5add11dbd.json
new file mode 100644
index 0000000..398d6c8
--- /dev/null
+++ b/test/data/enm/study-FCSV-555f8e31-ba21-3ba8-bcb2-50c5add11dbd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-555f8e31-ba21-3ba8-bcb2-50c5add11dbd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "alpha-Lipoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-556d0286-25c8-332b-b639-8f5dd6d1cf45.json b/test/data/enm/study-FCSV-556d0286-25c8-332b-b639-8f5dd6d1cf45.json
new file mode 100644
index 0000000..6eb4f5f
--- /dev/null
+++ b/test/data/enm/study-FCSV-556d0286-25c8-332b-b639-8f5dd6d1cf45.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-556d0286-25c8-332b-b639-8f5dd6d1cf45",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.74,
+        "errQualifier": "sd",
+        "errorValue": 5.11
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 51.52,
+        "errQualifier": "sd",
+        "errorValue": 6.46
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.89,
+        "errQualifier": "sd",
+        "errorValue": 21.97
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.83,
+        "errQualifier": "sd",
+        "errorValue": 4.61
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.93,
+        "errQualifier": "sd",
+        "errorValue": 9.65
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.48,
+        "errQualifier": "sd",
+        "errorValue": 1.54
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.93,
+        "errQualifier": "sd",
+        "errorValue": 15.48
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.37,
+        "errQualifier": "sd",
+        "errorValue": 3.18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-55d79ed2-4e3f-3c02-bf0e-260e92ca6a5e.json b/test/data/enm/study-FCSV-55d79ed2-4e3f-3c02-bf0e-260e92ca6a5e.json
new file mode 100644
index 0000000..54cdb9f
--- /dev/null
+++ b/test/data/enm/study-FCSV-55d79ed2-4e3f-3c02-bf0e-260e92ca6a5e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-55d79ed2-4e3f-3c02-bf0e-260e92ca6a5e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":34\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":3\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":3\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":1\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":52\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":101\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":1\n}\n,\"P01024\":{\n\t\"loValue\":120\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":200\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":7\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":4\n}\n,\"P01611\":{\n\t\"loValue\":2\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":22\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":4\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":63\n}\n,\"P01857\":{\n\t\"loValue\":65\n}\n,\"P01859\":{\n\t\"loValue\":36\n}\n,\"P01860\":{\n\t\"loValue\":8\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":80\n}\n,\"P01876\":{\n\t\"loValue\":33\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":64\n}\n,\"P02649\":{\n\t\"loValue\":50\n}\n,\"P02652\":{\n\t\"loValue\":10\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":1\n}\n,\"P02656\":{\n\t\"loValue\":21\n}\n,\"P02671\":{\n\t\"loValue\":4\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":60\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":1\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":58\n}\n,\"P03952\":{\n\t\"loValue\":19\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":104\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":4\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":40\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":84\n}\n,\"P0C0L5\":{\n\t\"loValue\":7\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":21\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":79\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":35\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":57\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":24\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":82\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":8\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":2\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":247\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":31\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":1\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":15\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":4\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-55ea6ddb-4efd-346f-989b-2693ff260aa1.json b/test/data/enm/study-FCSV-55ea6ddb-4efd-346f-989b-2693ff260aa1.json
new file mode 100644
index 0000000..202e1ae
--- /dev/null
+++ b/test/data/enm/study-FCSV-55ea6ddb-4efd-346f-989b-2693ff260aa1.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-55ea6ddb-4efd-346f-989b-2693ff260aa1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":148\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":5\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":436\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":16\n}\n,\"P01024\":{\n\t\"loValue\":104\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":22\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":12\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":16\n}\n,\"P01876\":{\n\t\"loValue\":9\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":9\n}\n,\"P02649\":{\n\t\"loValue\":138\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":62\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":17\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":14\n}\n,\"P03951\":{\n\t\"loValue\":4\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":108\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":58\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":24\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":16\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":17\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":12\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":22\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":7\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":40\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":1\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":2\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":6\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":2\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":15\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":2\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":11\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":3\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":3\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-560416aa-2c78-3a6f-a9bf-0eaa447de64e.json b/test/data/enm/study-FCSV-560416aa-2c78-3a6f-a9bf-0eaa447de64e.json
new file mode 100644
index 0000000..2252fc2
--- /dev/null
+++ b/test/data/enm/study-FCSV-560416aa-2c78-3a6f-a9bf-0eaa447de64e.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-560416aa-2c78-3a6f-a9bf-0eaa447de64e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 24.14,
+        "errQualifier": "sd",
+        "errorValue": 2.41
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.35,
+        "errQualifier": "sd",
+        "errorValue": 0.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-560bae11-245f-34da-9129-ee43eb809736.json b/test/data/enm/study-FCSV-560bae11-245f-34da-9129-ee43eb809736.json
new file mode 100644
index 0000000..b6e3299
--- /dev/null
+++ b/test/data/enm/study-FCSV-560bae11-245f-34da-9129-ee43eb809736.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-560bae11-245f-34da-9129-ee43eb809736",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-56369565-cf0c-36fd-aff9-a1829e42dfbd.json b/test/data/enm/study-FCSV-56369565-cf0c-36fd-aff9-a1829e42dfbd.json
new file mode 100644
index 0000000..6d3a441
--- /dev/null
+++ b/test/data/enm/study-FCSV-56369565-cf0c-36fd-aff9-a1829e42dfbd.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-56369565-cf0c-36fd-aff9-a1829e42dfbd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":21\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":3\n}\n,\"P00742\":{\n\t\"loValue\":7\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":110\n}\n,\"P01009\":{\n\t\"loValue\":3\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":27\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":6\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":4\n}\n,\"P01876\":{\n\t\"loValue\":0\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":2\n}\n,\"P02649\":{\n\t\"loValue\":16\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":10\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":31\n}\n,\"P04004\":{\n\t\"loValue\":13\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":11\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":6\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":13\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":3\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":0\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":2\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":1\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":1\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":1\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-56cf7f92-da2e-3318-b87a-a0e6157e5808.json b/test/data/enm/study-FCSV-56cf7f92-da2e-3318-b87a-a0e6157e5808.json
new file mode 100644
index 0000000..8ca5ade
--- /dev/null
+++ b/test/data/enm/study-FCSV-56cf7f92-da2e-3318-b87a-a0e6157e5808.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-56cf7f92-da2e-3318-b87a-a0e6157e5808",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-57209db4-63c9-32bc-9b69-d14dd76c6421.json b/test/data/enm/study-FCSV-57209db4-63c9-32bc-9b69-d14dd76c6421.json
new file mode 100644
index 0000000..63a6324
--- /dev/null
+++ b/test/data/enm/study-FCSV-57209db4-63c9-32bc-9b69-d14dd76c6421.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-57209db4-63c9-32bc-9b69-d14dd76c6421",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Peptide sequence 'CALNN'"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-57d0b9a5-124a-3d4b-a63e-84614edb8964.json b/test/data/enm/study-FCSV-57d0b9a5-124a-3d4b-a63e-84614edb8964.json
new file mode 100644
index 0000000..21f8685
--- /dev/null
+++ b/test/data/enm/study-FCSV-57d0b9a5-124a-3d4b-a63e-84614edb8964.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-57d0b9a5-124a-3d4b-a63e-84614edb8964",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.249,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.367,
+        "errQualifier": "sd",
+        "errorValue": 0.061
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-580e5898-73c7-3e1b-811c-faa8cccd7b51.json b/test/data/enm/study-FCSV-580e5898-73c7-3e1b-811c-faa8cccd7b51.json
new file mode 100644
index 0000000..1b29c76
--- /dev/null
+++ b/test/data/enm/study-FCSV-580e5898-73c7-3e1b-811c-faa8cccd7b51.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-580e5898-73c7-3e1b-811c-faa8cccd7b51",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 255.443,
+        "errQualifier": "sd",
+        "errorValue": 10.239
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-581de4bc-a29b-3276-afc7-70c1c86a85ec.json b/test/data/enm/study-FCSV-581de4bc-a29b-3276-afc7-70c1c86a85ec.json
new file mode 100644
index 0000000..1f88bcd
--- /dev/null
+++ b/test/data/enm/study-FCSV-581de4bc-a29b-3276-afc7-70c1c86a85ec.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-581de4bc-a29b-3276-afc7-70c1c86a85ec",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-582502cb-2afc-3cbf-8091-7bce8dd4dcfa.json b/test/data/enm/study-FCSV-582502cb-2afc-3cbf-8091-7bce8dd4dcfa.json
new file mode 100644
index 0000000..f65e573
--- /dev/null
+++ b/test/data/enm/study-FCSV-582502cb-2afc-3cbf-8091-7bce8dd4dcfa.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-582502cb-2afc-3cbf-8091-7bce8dd4dcfa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.859,
+        "errQualifier": "sd",
+        "errorValue": 9.894
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.033
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-582c6116-492c-3473-8b0f-28bb2176ccc6.json b/test/data/enm/study-FCSV-582c6116-492c-3473-8b0f-28bb2176ccc6.json
new file mode 100644
index 0000000..dbb07aa
--- /dev/null
+++ b/test/data/enm/study-FCSV-582c6116-492c-3473-8b0f-28bb2176ccc6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-582c6116-492c-3473-8b0f-28bb2176ccc6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.015,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.068,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-58857194-1af7-3226-9c7c-09773a00ce14.json b/test/data/enm/study-FCSV-58857194-1af7-3226-9c7c-09773a00ce14.json
new file mode 100644
index 0000000..f0c986a
--- /dev/null
+++ b/test/data/enm/study-FCSV-58857194-1af7-3226-9c7c-09773a00ce14.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-58857194-1af7-3226-9c7c-09773a00ce14",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-58e9db17-40c9-3cf0-b201-a5961161829f.json b/test/data/enm/study-FCSV-58e9db17-40c9-3cf0-b201-a5961161829f.json
new file mode 100644
index 0000000..3b04ce4
--- /dev/null
+++ b/test/data/enm/study-FCSV-58e9db17-40c9-3cf0-b201-a5961161829f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-58e9db17-40c9-3cf0-b201-a5961161829f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":20\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":2\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":1\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":1\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":17\n}\n,\"P00736\":{\n\t\"loValue\":18\n}\n,\"P00738\":{\n\t\"loValue\":4\n}\n,\"P00739\":{\n\t\"loValue\":8\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":9\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":9\n}\n,\"P00751\":{\n\t\"loValue\":10\n}\n,\"P01008\":{\n\t\"loValue\":28\n}\n,\"P01009\":{\n\t\"loValue\":15\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":55\n}\n,\"P01024\":{\n\t\"loValue\":192\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":2\n}\n,\"P01042\":{\n\t\"loValue\":143\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":4\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":50\n}\n,\"P01857\":{\n\t\"loValue\":45\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":24\n}\n,\"P01876\":{\n\t\"loValue\":77\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":22\n}\n,\"P02649\":{\n\t\"loValue\":19\n}\n,\"P02652\":{\n\t\"loValue\":3\n}\n,\"P02654\":{\n\t\"loValue\":5\n}\n,\"P02655\":{\n\t\"loValue\":1\n}\n,\"P02656\":{\n\t\"loValue\":21\n}\n,\"P02671\":{\n\t\"loValue\":12\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":15\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":1\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":108\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":13\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":2\n}\n,\"P02775\":{\n\t\"loValue\":5\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":4\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":1\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":37\n}\n,\"P03952\":{\n\t\"loValue\":34\n}\n,\"P04003\":{\n\t\"loValue\":9\n}\n,\"P04004\":{\n\t\"loValue\":34\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":15\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":24\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":2\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":33\n}\n,\"P05155\":{\n\t\"loValue\":17\n}\n,\"P05156\":{\n\t\"loValue\":2\n}\n,\"P05452\":{\n\t\"loValue\":12\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":35\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":1\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":10\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":128\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":7\n}\n,\"P0C0L4\":{\n\t\"loValue\":83\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":36\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":7\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":1\n}\n,\"P18065\":{\n\t\"loValue\":5\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":6\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":4\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":1\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":1\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":2\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":1\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":2\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":1\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":1\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":29\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":180\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":1\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":1\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":1\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":20\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":1\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":1\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":1\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-58fd76c5-684c-3616-ad55-46c16b0ff8ef.json b/test/data/enm/study-FCSV-58fd76c5-684c-3616-ad55-46c16b0ff8ef.json
new file mode 100644
index 0000000..a3898ef
--- /dev/null
+++ b/test/data/enm/study-FCSV-58fd76c5-684c-3616-ad55-46c16b0ff8ef.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-58fd76c5-684c-3616-ad55-46c16b0ff8ef",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":1\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":10\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":6\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":2\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":1\n}\n,\"P00451\":{\n\t\"loValue\":3\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":24\n}\n,\"P00736\":{\n\t\"loValue\":3\n}\n,\"P00738\":{\n\t\"loValue\":10\n}\n,\"P00739\":{\n\t\"loValue\":10\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":9\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":19\n}\n,\"P01009\":{\n\t\"loValue\":140\n}\n,\"P01011\":{\n\t\"loValue\":7\n}\n,\"P01019\":{\n\t\"loValue\":7\n}\n,\"P01023\":{\n\t\"loValue\":136\n}\n,\"P01024\":{\n\t\"loValue\":53\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":42\n}\n,\"P01857\":{\n\t\"loValue\":42\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":34\n}\n,\"P01876\":{\n\t\"loValue\":34\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":4\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":67\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":10\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":1\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":28\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":1\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":8\n}\n,\"P04004\":{\n\t\"loValue\":57\n}\n,\"P04070\":{\n\t\"loValue\":1\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":26\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":2\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":3\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":14\n}\n,\"P05155\":{\n\t\"loValue\":20\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":1\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":1\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":1\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":4\n}\n,\"P08697\":{\n\t\"loValue\":38\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":2\n}\n,\"P0C0L4\":{\n\t\"loValue\":55\n}\n,\"P0C0L5\":{\n\t\"loValue\":14\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":15\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":12\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":4\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":1\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":225\n}\n,\"P19827\":{\n\t\"loValue\":173\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":21\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":99\n}\n,\"Q07507\":{\n\t\"loValue\":5\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":6\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":249\n}\n,\"Q14624\":{\n\t\"loValue\":12\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":1\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":1\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":1\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":2\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":1\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":2\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-59010f16-6298-377c-a6a7-b636b807ce34.json b/test/data/enm/study-FCSV-59010f16-6298-377c-a6a7-b636b807ce34.json
new file mode 100644
index 0000000..aa2f186
--- /dev/null
+++ b/test/data/enm/study-FCSV-59010f16-6298-377c-a6a7-b636b807ce34.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-59010f16-6298-377c-a6a7-b636b807ce34",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Poly(vinylpyrrolidone)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-59c13065-bf6b-3561-bba3-c6839c8854ab.json b/test/data/enm/study-FCSV-59c13065-bf6b-3561-bba3-c6839c8854ab.json
new file mode 100644
index 0000000..29db82a
--- /dev/null
+++ b/test/data/enm/study-FCSV-59c13065-bf6b-3561-bba3-c6839c8854ab.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-59c13065-bf6b-3561-bba3-c6839c8854ab",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.576,
+        "errQualifier": "sd",
+        "errorValue": 19.379
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-59cbeffc-82bc-32de-ba2a-ed90abfa8b28.json b/test/data/enm/study-FCSV-59cbeffc-82bc-32de-ba2a-ed90abfa8b28.json
new file mode 100644
index 0000000..43a1f5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-59cbeffc-82bc-32de-ba2a-ed90abfa8b28.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-59cbeffc-82bc-32de-ba2a-ed90abfa8b28",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-59ecc05d-8f5c-3347-bc59-c93b6b1d1de0.json b/test/data/enm/study-FCSV-59ecc05d-8f5c-3347-bc59-c93b6b1d1de0.json
new file mode 100644
index 0000000..36b5ada
--- /dev/null
+++ b/test/data/enm/study-FCSV-59ecc05d-8f5c-3347-bc59-c93b6b1d1de0.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-59ecc05d-8f5c-3347-bc59-c93b6b1d1de0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 24.07,
+        "errQualifier": "sd",
+        "errorValue": 0.62
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.94,
+        "errQualifier": "sd",
+        "errorValue": 1.68
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.54,
+        "errQualifier": "sd",
+        "errorValue": 1.08
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.74,
+        "errQualifier": "sd",
+        "errorValue": 2.77
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.95,
+        "errQualifier": "sd",
+        "errorValue": 1.32
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.66,
+        "errQualifier": "sd",
+        "errorValue": 2.93
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.95,
+        "errQualifier": "sd",
+        "errorValue": 0.75
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.52,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-59f123cc-419e-3775-a169-876f31e5a34b.json b/test/data/enm/study-FCSV-59f123cc-419e-3775-a169-876f31e5a34b.json
new file mode 100644
index 0000000..cac57d9
--- /dev/null
+++ b/test/data/enm/study-FCSV-59f123cc-419e-3775-a169-876f31e5a34b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-59f123cc-419e-3775-a169-876f31e5a34b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.049,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.339,
+        "errQualifier": "std",
+        "errorValue": 0.059
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5a140613-2cb9-3438-bf9a-c9f9a58b03aa.json b/test/data/enm/study-FCSV-5a140613-2cb9-3438-bf9a-c9f9a58b03aa.json
new file mode 100644
index 0000000..fc379bb
--- /dev/null
+++ b/test/data/enm/study-FCSV-5a140613-2cb9-3438-bf9a-c9f9a58b03aa.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5a140613-2cb9-3438-bf9a-c9f9a58b03aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.147,
+        "errQualifier": "sd",
+        "errorValue": 0.101
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.765,
+        "errQualifier": "std",
+        "errorValue": 0.993
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5a4dc37a-507e-3b7d-a9f9-f17800ccf440.json b/test/data/enm/study-FCSV-5a4dc37a-507e-3b7d-a9f9-f17800ccf440.json
new file mode 100644
index 0000000..6c9b719
--- /dev/null
+++ b/test/data/enm/study-FCSV-5a4dc37a-507e-3b7d-a9f9-f17800ccf440.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5a4dc37a-507e-3b7d-a9f9-f17800ccf440",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.009,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.804,
+        "errQualifier": "std",
+        "errorValue": 0.988
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5a524eff-aecf-370c-9084-74493402e97a.json b/test/data/enm/study-FCSV-5a524eff-aecf-370c-9084-74493402e97a.json
new file mode 100644
index 0000000..d90fe08
--- /dev/null
+++ b/test/data/enm/study-FCSV-5a524eff-aecf-370c-9084-74493402e97a.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-5a524eff-aecf-370c-9084-74493402e97a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.42,
+        "errQualifier": "sd",
+        "errorValue": 7.7
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.54,
+        "errQualifier": "sd",
+        "errorValue": 1.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5a5a712a-94af-365c-a9b5-ecce4cbc9f43.json b/test/data/enm/study-FCSV-5a5a712a-94af-365c-a9b5-ecce4cbc9f43.json
new file mode 100644
index 0000000..cfa9fe8
--- /dev/null
+++ b/test/data/enm/study-FCSV-5a5a712a-94af-365c-a9b5-ecce4cbc9f43.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-5a5a712a-94af-365c-a9b5-ecce4cbc9f43",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.156,
+        "errQualifier": "sd",
+        "errorValue": 0.108
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.25,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.3,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5b2adf04-309c-3f72-ae32-ead5f869e961.json b/test/data/enm/study-FCSV-5b2adf04-309c-3f72-ae32-ead5f869e961.json
new file mode 100644
index 0000000..b24a5c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-5b2adf04-309c-3f72-ae32-ead5f869e961.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-5b2adf04-309c-3f72-ae32-ead5f869e961",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.224,
+        "errQualifier": "sd",
+        "errorValue": 0.065
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.275,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.33,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5b417954-3cbf-3490-8eeb-b57e5988dd9d.json b/test/data/enm/study-FCSV-5b417954-3cbf-3490-8eeb-b57e5988dd9d.json
new file mode 100644
index 0000000..0f1b8fb
--- /dev/null
+++ b/test/data/enm/study-FCSV-5b417954-3cbf-3490-8eeb-b57e5988dd9d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-5b417954-3cbf-3490-8eeb-b57e5988dd9d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":4\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":334\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":112\n}\n,\"P00742\":{\n\t\"loValue\":193\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":2\n}\n,\"P00748\":{\n\t\"loValue\":32\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":106\n}\n,\"P01009\":{\n\t\"loValue\":34\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":4\n}\n,\"P01024\":{\n\t\"loValue\":49\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":63\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":1\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":30\n}\n,\"P01857\":{\n\t\"loValue\":18\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":31\n}\n,\"P01876\":{\n\t\"loValue\":16\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":14\n}\n,\"P02649\":{\n\t\"loValue\":60\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":9\n}\n,\"P02655\":{\n\t\"loValue\":1\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":2\n}\n,\"P02743\":{\n\t\"loValue\":23\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":16\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":7\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":7\n}\n,\"P03951\":{\n\t\"loValue\":4\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":169\n}\n,\"P04004\":{\n\t\"loValue\":81\n}\n,\"P04070\":{\n\t\"loValue\":54\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":59\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":5\n}\n,\"P05155\":{\n\t\"loValue\":6\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":2\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":1\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":124\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":7\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":29\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":40\n}\n,\"P0C0L5\":{\n\t\"loValue\":11\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":6\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":9\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":1\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":37\n}\n,\"P23528\":{\n\t\"loValue\":1\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":1\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":1\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":1\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":1\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":6\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":3\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":1\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":1\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":1\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":6\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":1\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":1\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":1\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":8\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":5\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":1\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":1\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5b621862-27ce-3b95-9874-ea5ad88850b1.json b/test/data/enm/study-FCSV-5b621862-27ce-3b95-9874-ea5ad88850b1.json
new file mode 100644
index 0000000..d2834d1
--- /dev/null
+++ b/test/data/enm/study-FCSV-5b621862-27ce-3b95-9874-ea5ad88850b1.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-5b621862-27ce-3b95-9874-ea5ad88850b1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":152\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":7\n}\n,\"P00742\":{\n\t\"loValue\":60\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":365\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":7\n}\n,\"P01024\":{\n\t\"loValue\":78\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":19\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":11\n}\n,\"P01857\":{\n\t\"loValue\":5\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":11\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":8\n}\n,\"P02649\":{\n\t\"loValue\":154\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":32\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":11\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":11\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":37\n}\n,\"P04004\":{\n\t\"loValue\":81\n}\n,\"P04070\":{\n\t\"loValue\":9\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":30\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":17\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":16\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":13\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":5\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":20\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":9\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":6\n}\n,\"P08709\":{\n\t\"loValue\":4\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":40\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":1\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":2\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":4\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":2\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":1\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":2\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":8\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":6\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ba55501-90f8-3ccf-96fb-9549c4ce0abe.json b/test/data/enm/study-FCSV-5ba55501-90f8-3ccf-96fb-9549c4ce0abe.json
new file mode 100644
index 0000000..ed4e061
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ba55501-90f8-3ccf-96fb-9549c4ce0abe.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5ba55501-90f8-3ccf-96fb-9549c4ce0abe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (2kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5bb32a36-80ed-3481-b773-ba7b1f62c5c2.json b/test/data/enm/study-FCSV-5bb32a36-80ed-3481-b773-ba7b1f62c5c2.json
new file mode 100644
index 0000000..9ff5e48
--- /dev/null
+++ b/test/data/enm/study-FCSV-5bb32a36-80ed-3481-b773-ba7b1f62c5c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5bb32a36-80ed-3481-b773-ba7b1f62c5c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.092,
+        "errQualifier": "sd",
+        "errorValue": 0.039
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.166,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5bc3bc77-beda-385b-99d6-89c4da5b59f1.json b/test/data/enm/study-FCSV-5bc3bc77-beda-385b-99d6-89c4da5b59f1.json
new file mode 100644
index 0000000..838ad1e
--- /dev/null
+++ b/test/data/enm/study-FCSV-5bc3bc77-beda-385b-99d6-89c4da5b59f1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5bc3bc77-beda-385b-99d6-89c4da5b59f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-phenylalanine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5c970565-7f13-38e0-b804-e3011191f9fc.json b/test/data/enm/study-FCSV-5c970565-7f13-38e0-b804-e3011191f9fc.json
new file mode 100644
index 0000000..98573ae
--- /dev/null
+++ b/test/data/enm/study-FCSV-5c970565-7f13-38e0-b804-e3011191f9fc.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-5c970565-7f13-38e0-b804-e3011191f9fc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.071,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.807,
+        "errQualifier": "std",
+        "errorValue": 0.094
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5c9db0d0-bfa2-304d-b2f8-38e8d3c2b9f7.json b/test/data/enm/study-FCSV-5c9db0d0-bfa2-304d-b2f8-38e8d3c2b9f7.json
new file mode 100644
index 0000000..9f00ab7
--- /dev/null
+++ b/test/data/enm/study-FCSV-5c9db0d0-bfa2-304d-b2f8-38e8d3c2b9f7.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-5c9db0d0-bfa2-304d-b2f8-38e8d3c2b9f7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.255,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.374,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.53,
+        "errQualifier": "sd",
+        "errorValue": 0.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5cb563d7-f766-332e-952d-41d79da1d09f.json b/test/data/enm/study-FCSV-5cb563d7-f766-332e-952d-41d79da1d09f.json
new file mode 100644
index 0000000..fac3f52
--- /dev/null
+++ b/test/data/enm/study-FCSV-5cb563d7-f766-332e-952d-41d79da1d09f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-5cb563d7-f766-332e-952d-41d79da1d09f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.652,
+        "errQualifier": "sd",
+        "errorValue": 0.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5cc0b76e-21c2-3896-88ea-c9008a7ced46.json b/test/data/enm/study-FCSV-5cc0b76e-21c2-3896-88ea-c9008a7ced46.json
new file mode 100644
index 0000000..45319ec
--- /dev/null
+++ b/test/data/enm/study-FCSV-5cc0b76e-21c2-3896-88ea-c9008a7ced46.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-5cc0b76e-21c2-3896-88ea-c9008a7ced46",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.24,
+        "errQualifier": "sd",
+        "errorValue": 0.71
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 47.07,
+        "errQualifier": "sd",
+        "errorValue": 2.1
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.56,
+        "errQualifier": "sd",
+        "errorValue": 8.83
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 114.34,
+        "errQualifier": "sd",
+        "errorValue": 117.72
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54,
+        "errQualifier": "sd",
+        "errorValue": 0.94
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42.06,
+        "errQualifier": "sd",
+        "errorValue": 2.57
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54,
+        "errQualifier": "sd",
+        "errorValue": 3.08
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.39,
+        "errQualifier": "sd",
+        "errorValue": 32.48
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5cd29dce-7778-3c3e-9569-1595b8e16174.json b/test/data/enm/study-FCSV-5cd29dce-7778-3c3e-9569-1595b8e16174.json
new file mode 100644
index 0000000..b42713f
--- /dev/null
+++ b/test/data/enm/study-FCSV-5cd29dce-7778-3c3e-9569-1595b8e16174.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-5cd29dce-7778-3c3e-9569-1595b8e16174",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 419.977,
+        "errQualifier": "sd",
+        "errorValue": 41.565
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ced5828-df71-3662-8f94-90424eeefd1a.json b/test/data/enm/study-FCSV-5ced5828-df71-3662-8f94-90424eeefd1a.json
new file mode 100644
index 0000000..e495aab
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ced5828-df71-3662-8f94-90424eeefd1a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-5ced5828-df71-3662-8f94-90424eeefd1a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.333,
+        "errQualifier": "sd",
+        "errorValue": 0.239
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5d34733c-6718-3418-9093-ab0863866cb3.json b/test/data/enm/study-FCSV-5d34733c-6718-3418-9093-ab0863866cb3.json
new file mode 100644
index 0000000..b87c3a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-5d34733c-6718-3418-9093-ab0863866cb3.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-5d34733c-6718-3418-9093-ab0863866cb3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 18.17,
+        "errQualifier": "sd",
+        "errorValue": 1.53
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.07,
+        "errQualifier": "sd",
+        "errorValue": 1.46
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5d4d0e3e-0171-3e07-a457-eb68d06cf06c.json b/test/data/enm/study-FCSV-5d4d0e3e-0171-3e07-a457-eb68d06cf06c.json
new file mode 100644
index 0000000..45ed955
--- /dev/null
+++ b/test/data/enm/study-FCSV-5d4d0e3e-0171-3e07-a457-eb68d06cf06c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-5d4d0e3e-0171-3e07-a457-eb68d06cf06c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":1\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":2\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":214\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":5\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":18\n}\n,\"P01008\":{\n\t\"loValue\":281\n}\n,\"P01009\":{\n\t\"loValue\":15\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":18\n}\n,\"P01024\":{\n\t\"loValue\":66\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":86\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":9\n}\n,\"P01857\":{\n\t\"loValue\":22\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":12\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":16\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":103\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":20\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":1\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":2\n}\n,\"P02788\":{\n\t\"loValue\":37\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":4\n}\n,\"P03951\":{\n\t\"loValue\":26\n}\n,\"P03952\":{\n\t\"loValue\":37\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":82\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":109\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":50\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":8\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":16\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":8\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":6\n}\n,\"P08697\":{\n\t\"loValue\":4\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":52\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":12\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":4\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":8\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":1\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":1\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":2\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":1\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":6\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":6\n}\n,\"Q14624\":{\n\t\"loValue\":34\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":47\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":6\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":1\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":2\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5e005b68-c958-3928-808f-a06027420ce5.json b/test/data/enm/study-FCSV-5e005b68-c958-3928-808f-a06027420ce5.json
new file mode 100644
index 0000000..836af22
--- /dev/null
+++ b/test/data/enm/study-FCSV-5e005b68-c958-3928-808f-a06027420ce5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-5e005b68-c958-3928-808f-a06027420ce5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5e02c9cc-7e48-313c-a68d-5ab53168e0f6.json b/test/data/enm/study-FCSV-5e02c9cc-7e48-313c-a68d-5ab53168e0f6.json
new file mode 100644
index 0000000..7533711
--- /dev/null
+++ b/test/data/enm/study-FCSV-5e02c9cc-7e48-313c-a68d-5ab53168e0f6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5e02c9cc-7e48-313c-a68d-5ab53168e0f6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Poly(vinyl alcohol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5e36dbe8-bf0d-37cc-9673-bf2e3604ce24.json b/test/data/enm/study-FCSV-5e36dbe8-bf0d-37cc-9673-bf2e3604ce24.json
new file mode 100644
index 0000000..0e80df0
--- /dev/null
+++ b/test/data/enm/study-FCSV-5e36dbe8-bf0d-37cc-9673-bf2e3604ce24.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-5e36dbe8-bf0d-37cc-9673-bf2e3604ce24",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 25.15,
+        "errQualifier": "sd",
+        "errorValue": 1.48
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 58.99,
+        "errQualifier": "sd",
+        "errorValue": 2.4
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.57,
+        "errQualifier": "sd",
+        "errorValue": 33.69
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.77,
+        "errQualifier": "sd",
+        "errorValue": 13.76
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.42,
+        "errQualifier": "sd",
+        "errorValue": 1.47
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.83,
+        "errQualifier": "sd",
+        "errorValue": 11.15
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.42,
+        "errQualifier": "sd",
+        "errorValue": 30.34
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 71.19,
+        "errQualifier": "sd",
+        "errorValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ee60734-2e73-312f-86d4-87fa2bd69a50.json b/test/data/enm/study-FCSV-5ee60734-2e73-312f-86d4-87fa2bd69a50.json
new file mode 100644
index 0000000..1501716
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ee60734-2e73-312f-86d4-87fa2bd69a50.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-5ee60734-2e73-312f-86d4-87fa2bd69a50",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ef980a3-d025-3c83-bf26-e84062f6f2be.json b/test/data/enm/study-FCSV-5ef980a3-d025-3c83-bf26-e84062f6f2be.json
new file mode 100644
index 0000000..00cf59b
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ef980a3-d025-3c83-bf26-e84062f6f2be.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-5ef980a3-d025-3c83-bf26-e84062f6f2be",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 889.216,
+        "errQualifier": "sd",
+        "errorValue": 65.039
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ef9a7d0-6fb0-305c-b524-a6650729ff76.json b/test/data/enm/study-FCSV-5ef9a7d0-6fb0-305c-b524-a6650729ff76.json
new file mode 100644
index 0000000..d202659
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ef9a7d0-6fb0-305c-b524-a6650729ff76.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-5ef9a7d0-6fb0-305c-b524-a6650729ff76",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -28.55,
+        "errQualifier": "sd",
+        "errorValue": 4.4
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.14,
+        "errQualifier": "sd",
+        "errorValue": 2.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f01a2b7-7b21-357a-b167-83af11d9ca27.json b/test/data/enm/study-FCSV-5f01a2b7-7b21-357a-b167-83af11d9ca27.json
new file mode 100644
index 0000000..c326d10
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f01a2b7-7b21-357a-b167-83af11d9ca27.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-5f01a2b7-7b21-357a-b167-83af11d9ca27",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f02858f-68d7-36ec-a8bd-5984b4ebd926.json b/test/data/enm/study-FCSV-5f02858f-68d7-36ec-a8bd-5984b4ebd926.json
new file mode 100644
index 0000000..467b8fe
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f02858f-68d7-36ec-a8bd-5984b4ebd926.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-5f02858f-68d7-36ec-a8bd-5984b4ebd926",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f2363eb-0ed2-33b5-8bce-adb16542a0fa.json b/test/data/enm/study-FCSV-5f2363eb-0ed2-33b5-8bce-adb16542a0fa.json
new file mode 100644
index 0000000..bd9a98b
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f2363eb-0ed2-33b5-8bce-adb16542a0fa.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-5f2363eb-0ed2-33b5-8bce-adb16542a0fa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 240.729,
+        "errQualifier": "sd",
+        "errorValue": 1.237
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.038
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f322f9f-338e-3d84-a771-9fdf35457dd2.json b/test/data/enm/study-FCSV-5f322f9f-338e-3d84-a771-9fdf35457dd2.json
new file mode 100644
index 0000000..af65a8c
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f322f9f-338e-3d84-a771-9fdf35457dd2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-5f322f9f-338e-3d84-a771-9fdf35457dd2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.247,
+        "errQualifier": "sd",
+        "errorValue": 0.075
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f5b3239-09fb-3b50-a084-fddf4addb8b9.json b/test/data/enm/study-FCSV-5f5b3239-09fb-3b50-a084-fddf4addb8b9.json
new file mode 100644
index 0000000..dfdf479
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f5b3239-09fb-3b50-a084-fddf4addb8b9.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-5f5b3239-09fb-3b50-a084-fddf4addb8b9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":121\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":2\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":210\n}\n,\"P01009\":{\n\t\"loValue\":11\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":74\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":226\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":15\n}\n,\"P01857\":{\n\t\"loValue\":9\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":13\n}\n,\"P01876\":{\n\t\"loValue\":6\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":10\n}\n,\"P02649\":{\n\t\"loValue\":60\n}\n,\"P02652\":{\n\t\"loValue\":10\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":6\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":1\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":1\n}\n,\"P02788\":{\n\t\"loValue\":18\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":5\n}\n,\"P03951\":{\n\t\"loValue\":67\n}\n,\"P03952\":{\n\t\"loValue\":28\n}\n,\"P04003\":{\n\t\"loValue\":8\n}\n,\"P04004\":{\n\t\"loValue\":113\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":1\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":91\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":5\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":18\n}\n,\"P05155\":{\n\t\"loValue\":1\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":9\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":11\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":20\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":45\n}\n,\"P0C0L5\":{\n\t\"loValue\":6\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":8\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":1\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":1\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":6\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":3\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":1\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":13\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":30\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":3\n}\n,\"Q6IEV9\":{\n\t\"loValue\":1\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":1\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":13\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":2\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5f7f003a-8224-3515-8c33-f1a8ca1a4494.json b/test/data/enm/study-FCSV-5f7f003a-8224-3515-8c33-f1a8ca1a4494.json
new file mode 100644
index 0000000..7972b65
--- /dev/null
+++ b/test/data/enm/study-FCSV-5f7f003a-8224-3515-8c33-f1a8ca1a4494.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-5f7f003a-8224-3515-8c33-f1a8ca1a4494",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.3,
+        "errQualifier": "sd",
+        "errorValue": 2.51
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.75,
+        "errQualifier": "sd",
+        "errorValue": 2.77
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ff3c7d9-f086-3cc2-8a11-e14fadfa1126.json b/test/data/enm/study-FCSV-5ff3c7d9-f086-3cc2-8a11-e14fadfa1126.json
new file mode 100644
index 0000000..40ce599
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ff3c7d9-f086-3cc2-8a11-e14fadfa1126.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-5ff3c7d9-f086-3cc2-8a11-e14fadfa1126",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.23,
+        "errQualifier": "sd",
+        "errorValue": 0.041
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.442,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.1,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5ff5db50-0ede-3e89-96b9-ec56ca8eefb8.json b/test/data/enm/study-FCSV-5ff5db50-0ede-3e89-96b9-ec56ca8eefb8.json
new file mode 100644
index 0000000..b824749
--- /dev/null
+++ b/test/data/enm/study-FCSV-5ff5db50-0ede-3e89-96b9-ec56ca8eefb8.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-5ff5db50-0ede-3e89-96b9-ec56ca8eefb8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 248.306,
+        "errQualifier": "sd",
+        "errorValue": 11.952
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.047
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-603112e5-3847-3399-a746-ddfae270c73b.json b/test/data/enm/study-FCSV-603112e5-3847-3399-a746-ddfae270c73b.json
new file mode 100644
index 0000000..a28bc6f
--- /dev/null
+++ b/test/data/enm/study-FCSV-603112e5-3847-3399-a746-ddfae270c73b.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-603112e5-3847-3399-a746-ddfae270c73b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 630.444,
+        "errQualifier": "sd",
+        "errorValue": 38.609
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73.json b/test/data/enm/study-FCSV-6036e605-253f-376b-aac6-dbec7f63577b.json
index 2fd9a03..2fd9a03 100644
--- a/test/data/enm/study-FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73.json
+++ b/test/data/enm/study-FCSV-6036e605-253f-376b-aac6-dbec7f63577b.json
diff --git a/test/data/enm/study-FCSV-606bda8b-9bac-31cd-8864-504a0acb05ac.json b/test/data/enm/study-FCSV-606bda8b-9bac-31cd-8864-504a0acb05ac.json
new file mode 100644
index 0000000..7b37089
--- /dev/null
+++ b/test/data/enm/study-FCSV-606bda8b-9bac-31cd-8864-504a0acb05ac.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-606bda8b-9bac-31cd-8864-504a0acb05ac",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-608bfc0f-2ad3-3104-ad1f-79c8fe5557f8.json b/test/data/enm/study-FCSV-608bfc0f-2ad3-3104-ad1f-79c8fe5557f8.json
new file mode 100644
index 0000000..899d317
--- /dev/null
+++ b/test/data/enm/study-FCSV-608bfc0f-2ad3-3104-ad1f-79c8fe5557f8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-608bfc0f-2ad3-3104-ad1f-79c8fe5557f8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -26.48,
+        "errQualifier": "sd",
+        "errorValue": 2.02
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.95,
+        "errQualifier": "sd",
+        "errorValue": 1.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-608d5d97-0158-3ffb-bb59-96b0f2fedb2b.json b/test/data/enm/study-FCSV-608d5d97-0158-3ffb-bb59-96b0f2fedb2b.json
new file mode 100644
index 0000000..998f68f
--- /dev/null
+++ b/test/data/enm/study-FCSV-608d5d97-0158-3ffb-bb59-96b0f2fedb2b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-608d5d97-0158-3ffb-bb59-96b0f2fedb2b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.038,
+        "errQualifier": "sd",
+        "errorValue": 0.949
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-60a3f3de-3a82-3823-a949-1a6e369e43f1.json b/test/data/enm/study-FCSV-60a3f3de-3a82-3823-a949-1a6e369e43f1.json
new file mode 100644
index 0000000..3436fc5
--- /dev/null
+++ b/test/data/enm/study-FCSV-60a3f3de-3a82-3823-a949-1a6e369e43f1.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-60a3f3de-3a82-3823-a949-1a6e369e43f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 253.215,
+        "errQualifier": "sd",
+        "errorValue": 11.471
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-60dddd16-8425-39df-a74c-297036759898.json b/test/data/enm/study-FCSV-60dddd16-8425-39df-a74c-297036759898.json
new file mode 100644
index 0000000..626a4d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-60dddd16-8425-39df-a74c-297036759898.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-60dddd16-8425-39df-a74c-297036759898",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.268,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.97,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6154b8fc-f2a0-3f81-b881-84bf7aba3ba0.json b/test/data/enm/study-FCSV-6154b8fc-f2a0-3f81-b881-84bf7aba3ba0.json
new file mode 100644
index 0000000..ec11dc5
--- /dev/null
+++ b/test/data/enm/study-FCSV-6154b8fc-f2a0-3f81-b881-84bf7aba3ba0.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-6154b8fc-f2a0-3f81-b881-84bf7aba3ba0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 19.85,
+        "errQualifier": "sd",
+        "errorValue": 17.19
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.69,
+        "errQualifier": "sd",
+        "errorValue": 4.24
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20.14,
+        "errQualifier": "sd",
+        "errorValue": 17.44
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.52,
+        "errQualifier": "sd",
+        "errorValue": 2.28
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.49,
+        "errQualifier": "sd",
+        "errorValue": 16.5
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.34,
+        "errQualifier": "sd",
+        "errorValue": 4.26
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.49,
+        "errQualifier": "sd",
+        "errorValue": 18.61
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.44,
+        "errQualifier": "sd",
+        "errorValue": 5.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6265f637-3b3b-3fb3-abbf-da1b4550cc42.json b/test/data/enm/study-FCSV-6265f637-3b3b-3fb3-abbf-da1b4550cc42.json
new file mode 100644
index 0000000..10b83ad
--- /dev/null
+++ b/test/data/enm/study-FCSV-6265f637-3b3b-3fb3-abbf-da1b4550cc42.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-6265f637-3b3b-3fb3-abbf-da1b4550cc42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.387,
+        "errQualifier": "sd",
+        "errorValue": 0.775
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-627f7fa1-f27a-3d67-a18b-c2bcfee72e70.json b/test/data/enm/study-FCSV-627f7fa1-f27a-3d67-a18b-c2bcfee72e70.json
new file mode 100644
index 0000000..c2c5029
--- /dev/null
+++ b/test/data/enm/study-FCSV-627f7fa1-f27a-3d67-a18b-c2bcfee72e70.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-627f7fa1-f27a-3d67-a18b-c2bcfee72e70",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-62848c60-028b-3d11-9ce7-bf3384a1f0f1.json b/test/data/enm/study-FCSV-62848c60-028b-3d11-9ce7-bf3384a1f0f1.json
new file mode 100644
index 0000000..1cc52fb
--- /dev/null
+++ b/test/data/enm/study-FCSV-62848c60-028b-3d11-9ce7-bf3384a1f0f1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-62848c60-028b-3d11-9ce7-bf3384a1f0f1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "TWEEN20"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-62859f84-6202-3c04-bce1-b85fa440314a.json b/test/data/enm/study-FCSV-62859f84-6202-3c04-bce1-b85fa440314a.json
new file mode 100644
index 0000000..9fddb20
--- /dev/null
+++ b/test/data/enm/study-FCSV-62859f84-6202-3c04-bce1-b85fa440314a.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-62859f84-6202-3c04-bce1-b85fa440314a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "benzyldimethylhexadecylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-634009a8-b662-3d01-a692-97883dfcda43.json b/test/data/enm/study-FCSV-634009a8-b662-3d01-a692-97883dfcda43.json
new file mode 100644
index 0000000..48fad5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-634009a8-b662-3d01-a692-97883dfcda43.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-634009a8-b662-3d01-a692-97883dfcda43",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 261.99,
+        "errQualifier": "sd",
+        "errorValue": 1.518
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.05
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-63886c6d-c4e7-378b-855b-a716c89a555b.json b/test/data/enm/study-FCSV-63886c6d-c4e7-378b-855b-a716c89a555b.json
new file mode 100644
index 0000000..7cecf7f
--- /dev/null
+++ b/test/data/enm/study-FCSV-63886c6d-c4e7-378b-855b-a716c89a555b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-63886c6d-c4e7-378b-855b-a716c89a555b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.086,
+        "errQualifier": "sd",
+        "errorValue": 0.075
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.154,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6427f82a-8d8d-3360-9621-0e6959543259.json b/test/data/enm/study-FCSV-6427f82a-8d8d-3360-9621-0e6959543259.json
new file mode 100644
index 0000000..777ec2a
--- /dev/null
+++ b/test/data/enm/study-FCSV-6427f82a-8d8d-3360-9621-0e6959543259.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-6427f82a-8d8d-3360-9621-0e6959543259",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -19.12,
+        "errQualifier": "sd",
+        "errorValue": 1.25
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.62,
+        "errQualifier": "sd",
+        "errorValue": 3.24
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-646385e8-096d-3917-bfce-661b56b8ea50.json b/test/data/enm/study-FCSV-646385e8-096d-3917-bfce-661b56b8ea50.json
new file mode 100644
index 0000000..014405c
--- /dev/null
+++ b/test/data/enm/study-FCSV-646385e8-096d-3917-bfce-661b56b8ea50.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-646385e8-096d-3917-bfce-661b56b8ea50",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.107,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.138,
+        "errQualifier": "sd",
+        "errorValue": 0.057
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6469b88c-267c-3149-94a8-72b942b2ca5b.json b/test/data/enm/study-FCSV-6469b88c-267c-3149-94a8-72b942b2ca5b.json
new file mode 100644
index 0000000..5f0f17d
--- /dev/null
+++ b/test/data/enm/study-FCSV-6469b88c-267c-3149-94a8-72b942b2ca5b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-6469b88c-267c-3149-94a8-72b942b2ca5b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":2\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":10\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":177\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":3\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":1\n}\n,\"P01008\":{\n\t\"loValue\":358\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":23\n}\n,\"P01024\":{\n\t\"loValue\":81\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":169\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":12\n}\n,\"P01857\":{\n\t\"loValue\":9\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":7\n}\n,\"P01876\":{\n\t\"loValue\":9\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":11\n}\n,\"P02649\":{\n\t\"loValue\":131\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":24\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":10\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":5\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":9\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":4\n}\n,\"P03951\":{\n\t\"loValue\":123\n}\n,\"P03952\":{\n\t\"loValue\":23\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":146\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":3\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":201\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":16\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":21\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":8\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":6\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":26\n}\n,\"P08697\":{\n\t\"loValue\":10\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":23\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":9\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":6\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":42\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":8\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":1\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":5\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":2\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":1\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":9\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":16\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":2\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":27\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":5\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":25\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":2\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":1\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":2\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":1\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":8\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":26\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":1\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":10\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":10\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":1\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-64889944-534b-3c4e-85d2-d4598df38d81.json b/test/data/enm/study-FCSV-64889944-534b-3c4e-85d2-d4598df38d81.json
new file mode 100644
index 0000000..05e63c3
--- /dev/null
+++ b/test/data/enm/study-FCSV-64889944-534b-3c4e-85d2-d4598df38d81.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-64889944-534b-3c4e-85d2-d4598df38d81",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.04,
+        "errQualifier": "sd",
+        "errorValue": 0.023
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.652,
+        "errQualifier": "std",
+        "errorValue": 0.846
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-649acc8e-ffec-3572-af87-8cbaf7f9559a.json b/test/data/enm/study-FCSV-649acc8e-ffec-3572-af87-8cbaf7f9559a.json
new file mode 100644
index 0000000..c5a33f3
--- /dev/null
+++ b/test/data/enm/study-FCSV-649acc8e-ffec-3572-af87-8cbaf7f9559a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-649acc8e-ffec-3572-af87-8cbaf7f9559a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.769,
+        "errQualifier": "sd",
+        "errorValue": 0.109
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-64b5f157-d965-3d73-9f18-84c0e395c577.json b/test/data/enm/study-FCSV-64b5f157-d965-3d73-9f18-84c0e395c577.json
new file mode 100644
index 0000000..bb47317
--- /dev/null
+++ b/test/data/enm/study-FCSV-64b5f157-d965-3d73-9f18-84c0e395c577.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-64b5f157-d965-3d73-9f18-84c0e395c577",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-64b7599f-b316-3000-8c4f-07fd8425e40a.json b/test/data/enm/study-FCSV-64b7599f-b316-3000-8c4f-07fd8425e40a.json
new file mode 100644
index 0000000..142065c
--- /dev/null
+++ b/test/data/enm/study-FCSV-64b7599f-b316-3000-8c4f-07fd8425e40a.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-64b7599f-b316-3000-8c4f-07fd8425e40a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.22,
+        "errQualifier": "sd",
+        "errorValue": 1.02
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 66.32,
+        "errQualifier": "sd",
+        "errorValue": 2.74
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.83,
+        "errQualifier": "sd",
+        "errorValue": 1.67
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.32,
+        "errQualifier": "sd",
+        "errorValue": 3.14
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.54,
+        "errQualifier": "sd",
+        "errorValue": 2.22
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.06,
+        "errQualifier": "sd",
+        "errorValue": 2.76
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.54,
+        "errQualifier": "sd",
+        "errorValue": 2.97
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 75.3,
+        "errQualifier": "sd",
+        "errorValue": 4.83
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-64bf19a3-85ae-3403-9415-f846f14c7405.json b/test/data/enm/study-FCSV-64bf19a3-85ae-3403-9415-f846f14c7405.json
new file mode 100644
index 0000000..b507d87
--- /dev/null
+++ b/test/data/enm/study-FCSV-64bf19a3-85ae-3403-9415-f846f14c7405.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-64bf19a3-85ae-3403-9415-f846f14c7405",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.239,
+        "errQualifier": "sd",
+        "errorValue": 0.043
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.244,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-64c0e6eb-d5f6-3983-9b4a-d6e3968650a7.json b/test/data/enm/study-FCSV-64c0e6eb-d5f6-3983-9b4a-d6e3968650a7.json
new file mode 100644
index 0000000..f9be8eb
--- /dev/null
+++ b/test/data/enm/study-FCSV-64c0e6eb-d5f6-3983-9b4a-d6e3968650a7.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-64c0e6eb-d5f6-3983-9b4a-d6e3968650a7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 28.17,
+        "errQualifier": "sd",
+        "errorValue": 0.81
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 47.34,
+        "errQualifier": "sd",
+        "errorValue": 3.59
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.17,
+        "errQualifier": "sd",
+        "errorValue": 1.88
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 62.91,
+        "errQualifier": "sd",
+        "errorValue": 31.7
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.58,
+        "errQualifier": "sd",
+        "errorValue": 2.18
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.51,
+        "errQualifier": "sd",
+        "errorValue": 10.08
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.58,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 83.76,
+        "errQualifier": "sd",
+        "errorValue": 32.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-652c172a-ca7c-341f-9ec5-bdecb628d9b0.json b/test/data/enm/study-FCSV-652c172a-ca7c-341f-9ec5-bdecb628d9b0.json
new file mode 100644
index 0000000..8d8c74d
--- /dev/null
+++ b/test/data/enm/study-FCSV-652c172a-ca7c-341f-9ec5-bdecb628d9b0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-652c172a-ca7c-341f-9ec5-bdecb628d9b0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.402,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.316,
+        "errQualifier": "std",
+        "errorValue": 0.057
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-65524675-90cd-39f3-87e1-92f3cb8fe538.json b/test/data/enm/study-FCSV-65524675-90cd-39f3-87e1-92f3cb8fe538.json
new file mode 100644
index 0000000..1a564d6
--- /dev/null
+++ b/test/data/enm/study-FCSV-65524675-90cd-39f3-87e1-92f3cb8fe538.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-65524675-90cd-39f3-87e1-92f3cb8fe538",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":1\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":8\n}\n,\"P00736\":{\n\t\"loValue\":4\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":0\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":120\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":4\n}\n,\"P01042\":{\n\t\"loValue\":194\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":11\n}\n,\"P01857\":{\n\t\"loValue\":7\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":6\n}\n,\"P01876\":{\n\t\"loValue\":3\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":31\n}\n,\"P02649\":{\n\t\"loValue\":26\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":15\n}\n,\"P02655\":{\n\t\"loValue\":7\n}\n,\"P02656\":{\n\t\"loValue\":40\n}\n,\"P02671\":{\n\t\"loValue\":21\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":42\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":3\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":6\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":8\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":2\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":40\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":2\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":15\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":111\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":6\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":1\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":17\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":21\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":1\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":1\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":1\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":1\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":36\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":1\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":6\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-658682d3-8428-32e4-abc7-3b85fb6f2f67.json b/test/data/enm/study-FCSV-658682d3-8428-32e4-abc7-3b85fb6f2f67.json
new file mode 100644
index 0000000..9a64985
--- /dev/null
+++ b/test/data/enm/study-FCSV-658682d3-8428-32e4-abc7-3b85fb6f2f67.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-658682d3-8428-32e4-abc7-3b85fb6f2f67",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-659f3f17-ba5b-3f52-ae40-0a9adbb931bb.json b/test/data/enm/study-FCSV-659f3f17-ba5b-3f52-ae40-0a9adbb931bb.json
new file mode 100644
index 0000000..e2a7923
--- /dev/null
+++ b/test/data/enm/study-FCSV-659f3f17-ba5b-3f52-ae40-0a9adbb931bb.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-659f3f17-ba5b-3f52-ae40-0a9adbb931bb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.211,
+        "errQualifier": "sd",
+        "errorValue": 0.092
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.236,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-65ac3f89-f2c4-385d-a746-3877728ef13a.json b/test/data/enm/study-FCSV-65ac3f89-f2c4-385d-a746-3877728ef13a.json
new file mode 100644
index 0000000..4235ac2
--- /dev/null
+++ b/test/data/enm/study-FCSV-65ac3f89-f2c4-385d-a746-3877728ef13a.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-65ac3f89-f2c4-385d-a746-3877728ef13a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.245,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.291,
+        "errQualifier": "sd",
+        "errorValue": 0.049
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.53,
+        "errQualifier": "sd",
+        "errorValue": 0.38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-65c45738-768e-3258-be03-cf0b2c590064.json b/test/data/enm/study-FCSV-65c45738-768e-3258-be03-cf0b2c590064.json
new file mode 100644
index 0000000..ad1845d
--- /dev/null
+++ b/test/data/enm/study-FCSV-65c45738-768e-3258-be03-cf0b2c590064.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-65c45738-768e-3258-be03-cf0b2c590064",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 234.611,
+        "errQualifier": "sd",
+        "errorValue": 2.471
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.002
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-661906a4-9d2f-323d-a96c-8038984ec75b.json b/test/data/enm/study-FCSV-661906a4-9d2f-323d-a96c-8038984ec75b.json
new file mode 100644
index 0000000..21f7446
--- /dev/null
+++ b/test/data/enm/study-FCSV-661906a4-9d2f-323d-a96c-8038984ec75b.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-661906a4-9d2f-323d-a96c-8038984ec75b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "poly(vinyl alcohol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6646262a-28df-3766-9f84-a4f0554b8d34.json b/test/data/enm/study-FCSV-6646262a-28df-3766-9f84-a4f0554b8d34.json
new file mode 100644
index 0000000..1a392e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-6646262a-28df-3766-9f84-a4f0554b8d34.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-6646262a-28df-3766-9f84-a4f0554b8d34",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(11-Mercaptoundecyl)-N,N,N-trimethylammonium"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-678982e8-7aca-3edc-8406-4a83e0ea0615.json b/test/data/enm/study-FCSV-678982e8-7aca-3edc-8406-4a83e0ea0615.json
new file mode 100644
index 0000000..477b879
--- /dev/null
+++ b/test/data/enm/study-FCSV-678982e8-7aca-3edc-8406-4a83e0ea0615.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-678982e8-7aca-3edc-8406-4a83e0ea0615",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.109,
+        "errQualifier": "sd",
+        "errorValue": 0.042
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.152,
+        "errQualifier": "sd",
+        "errorValue": 0.082
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-67b42f96-63ae-3a8f-a6c9-0d4ea866d629.json b/test/data/enm/study-FCSV-67b42f96-63ae-3a8f-a6c9-0d4ea866d629.json
new file mode 100644
index 0000000..b5d09d2
--- /dev/null
+++ b/test/data/enm/study-FCSV-67b42f96-63ae-3a8f-a6c9-0d4ea866d629.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-67b42f96-63ae-3a8f-a6c9-0d4ea866d629",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.024,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.403,
+        "errQualifier": "std",
+        "errorValue": 0.929
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-67bd95a6-4c9f-307c-8f22-de526233ff96.json b/test/data/enm/study-FCSV-67bd95a6-4c9f-307c-8f22-de526233ff96.json
new file mode 100644
index 0000000..e5df515
--- /dev/null
+++ b/test/data/enm/study-FCSV-67bd95a6-4c9f-307c-8f22-de526233ff96.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-67bd95a6-4c9f-307c-8f22-de526233ff96",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.232,
+        "errQualifier": "sd",
+        "errorValue": 0.668
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-686590c5-b467-3d5d-8216-33d4f8dec853.json b/test/data/enm/study-FCSV-686590c5-b467-3d5d-8216-33d4f8dec853.json
new file mode 100644
index 0000000..d516f02
--- /dev/null
+++ b/test/data/enm/study-FCSV-686590c5-b467-3d5d-8216-33d4f8dec853.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-686590c5-b467-3d5d-8216-33d4f8dec853",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 25.73,
+        "errQualifier": "sd",
+        "errorValue": 1.71
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 55.65,
+        "errQualifier": "sd",
+        "errorValue": 6.1
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20.3,
+        "errQualifier": "sd",
+        "errorValue": 21.21
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17.18,
+        "errQualifier": "sd",
+        "errorValue": 0.82
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.49,
+        "errQualifier": "sd",
+        "errorValue": 8.42
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14.1,
+        "errQualifier": "sd",
+        "errorValue": 0.38
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.49,
+        "errQualifier": "sd",
+        "errorValue": 8.04
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 70.02,
+        "errQualifier": "sd",
+        "errorValue": 6.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6872c2b5-9284-3b9e-ab2f-1972f64881ca.json b/test/data/enm/study-FCSV-6872c2b5-9284-3b9e-ab2f-1972f64881ca.json
new file mode 100644
index 0000000..1422918
--- /dev/null
+++ b/test/data/enm/study-FCSV-6872c2b5-9284-3b9e-ab2f-1972f64881ca.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-6872c2b5-9284-3b9e-ab2f-1972f64881ca",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 249.683,
+        "errQualifier": "sd",
+        "errorValue": 6.476
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6931af0f-8641-3d39-922d-e884fbdac88f.json b/test/data/enm/study-FCSV-6931af0f-8641-3d39-922d-e884fbdac88f.json
new file mode 100644
index 0000000..995304f
--- /dev/null
+++ b/test/data/enm/study-FCSV-6931af0f-8641-3d39-922d-e884fbdac88f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-6931af0f-8641-3d39-922d-e884fbdac88f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.176,
+        "errQualifier": "sd",
+        "errorValue": 0.079
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.245,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.37,
+        "errQualifier": "sd",
+        "errorValue": 0.47
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-694fc7cb-2225-3cfc-a8c7-36e92133b33a.json b/test/data/enm/study-FCSV-694fc7cb-2225-3cfc-a8c7-36e92133b33a.json
new file mode 100644
index 0000000..873155e
--- /dev/null
+++ b/test/data/enm/study-FCSV-694fc7cb-2225-3cfc-a8c7-36e92133b33a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-694fc7cb-2225-3cfc-a8c7-36e92133b33a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":7\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":3\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":3\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":5\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":84\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":14\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":5\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":23\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":204\n}\n,\"P01009\":{\n\t\"loValue\":36\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":53\n}\n,\"P01024\":{\n\t\"loValue\":89\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":328\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":27\n}\n,\"P01857\":{\n\t\"loValue\":28\n}\n,\"P01859\":{\n\t\"loValue\":15\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":4\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":20\n}\n,\"P01877\":{\n\t\"loValue\":4\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":27\n}\n,\"P02649\":{\n\t\"loValue\":45\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":7\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":4\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":8\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":22\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":6\n}\n,\"P02765\":{\n\t\"loValue\":3\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":10\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":27\n}\n,\"P02788\":{\n\t\"loValue\":14\n}\n,\"P02790\":{\n\t\"loValue\":4\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":1\n}\n,\"P03950\":{\n\t\"loValue\":9\n}\n,\"P03951\":{\n\t\"loValue\":78\n}\n,\"P03952\":{\n\t\"loValue\":63\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":132\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":31\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":235\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":4\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":9\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":1\n}\n,\"P05062\":{\n\t\"loValue\":5\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":3\n}\n,\"P05154\":{\n\t\"loValue\":28\n}\n,\"P05155\":{\n\t\"loValue\":28\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":8\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":25\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":4\n}\n,\"P06727\":{\n\t\"loValue\":3\n}\n,\"P06732\":{\n\t\"loValue\":7\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":2\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":1\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":3\n}\n,\"P08567\":{\n\t\"loValue\":3\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":9\n}\n,\"P08697\":{\n\t\"loValue\":13\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":48\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":18\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":41\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":1\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":1\n}\n,\"P15169\":{\n\t\"loValue\":12\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":1\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":16\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":7\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":9\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":6\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":2\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":2\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":4\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":15\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":1\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":1\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":13\n}\n,\"P49913\":{\n\t\"loValue\":4\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":10\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":3\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":2\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":10\n}\n,\"P69905\":{\n\t\"loValue\":8\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":5\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":5\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":1\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":3\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":3\n}\n,\"Q14624\":{\n\t\"loValue\":52\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":2\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":25\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":1\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":6\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":1\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":1\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":22\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-696a4de8-fd9a-3b27-98aa-b912a5d6f5c2.json b/test/data/enm/study-FCSV-696a4de8-fd9a-3b27-98aa-b912a5d6f5c2.json
new file mode 100644
index 0000000..59ecf94
--- /dev/null
+++ b/test/data/enm/study-FCSV-696a4de8-fd9a-3b27-98aa-b912a5d6f5c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-696a4de8-fd9a-3b27-98aa-b912a5d6f5c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.947,
+        "errQualifier": "sd",
+        "errorValue": 0.251
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.079,
+        "errQualifier": "std",
+        "errorValue": 0.383
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-69de3e28-652e-3b4d-82ea-6557f7d78480.json b/test/data/enm/study-FCSV-69de3e28-652e-3b4d-82ea-6557f7d78480.json
new file mode 100644
index 0000000..2b56f9b
--- /dev/null
+++ b/test/data/enm/study-FCSV-69de3e28-652e-3b4d-82ea-6557f7d78480.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-69de3e28-652e-3b4d-82ea-6557f7d78480",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.421,
+        "errQualifier": "sd",
+        "errorValue": 0.676
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-69f6fb23-407c-3701-8389-c5dfe81dbf6f.json b/test/data/enm/study-FCSV-69f6fb23-407c-3701-8389-c5dfe81dbf6f.json
new file mode 100644
index 0000000..83a4691
--- /dev/null
+++ b/test/data/enm/study-FCSV-69f6fb23-407c-3701-8389-c5dfe81dbf6f.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-69f6fb23-407c-3701-8389-c5dfe81dbf6f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.05,
+        "errQualifier": "sd",
+        "errorValue": 21.99
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 46.63,
+        "errQualifier": "sd",
+        "errorValue": 3.73
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.55,
+        "errQualifier": "sd",
+        "errorValue": 5.08
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 57,
+        "errQualifier": "sd",
+        "errorValue": 2.68
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.47,
+        "errQualifier": "sd",
+        "errorValue": 4.63
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.14,
+        "errQualifier": "sd",
+        "errorValue": 10.99
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.47,
+        "errQualifier": "sd",
+        "errorValue": 11.4
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.78,
+        "errQualifier": "sd",
+        "errorValue": 11.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6a5e9ee5-e18d-3e25-8eb3-e1842023c282.json b/test/data/enm/study-FCSV-6a5e9ee5-e18d-3e25-8eb3-e1842023c282.json
new file mode 100644
index 0000000..4e96af3
--- /dev/null
+++ b/test/data/enm/study-FCSV-6a5e9ee5-e18d-3e25-8eb3-e1842023c282.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-6a5e9ee5-e18d-3e25-8eb3-e1842023c282",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -4.96,
+        "errQualifier": "sd",
+        "errorValue": 1.26
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -3.92,
+        "errQualifier": "sd",
+        "errorValue": 2.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6a6882d4-b716-3774-94b3-ab9d537a5d08.json b/test/data/enm/study-FCSV-6a6882d4-b716-3774-94b3-ab9d537a5d08.json
new file mode 100644
index 0000000..bec6a1d
--- /dev/null
+++ b/test/data/enm/study-FCSV-6a6882d4-b716-3774-94b3-ab9d537a5d08.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-6a6882d4-b716-3774-94b3-ab9d537a5d08",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":1\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":2\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":383\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":110\n}\n,\"P00742\":{\n\t\"loValue\":220\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":8\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":70\n}\n,\"P01009\":{\n\t\"loValue\":26\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":5\n}\n,\"P01024\":{\n\t\"loValue\":52\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":89\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":31\n}\n,\"P01857\":{\n\t\"loValue\":23\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":32\n}\n,\"P01876\":{\n\t\"loValue\":18\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":15\n}\n,\"P02649\":{\n\t\"loValue\":143\n}\n,\"P02652\":{\n\t\"loValue\":10\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":4\n}\n,\"P02743\":{\n\t\"loValue\":26\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":40\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":6\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":7\n}\n,\"P03951\":{\n\t\"loValue\":34\n}\n,\"P03952\":{\n\t\"loValue\":1\n}\n,\"P04003\":{\n\t\"loValue\":170\n}\n,\"P04004\":{\n\t\"loValue\":66\n}\n,\"P04070\":{\n\t\"loValue\":58\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":100\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":9\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":1\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":1\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":115\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":8\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":2\n}\n,\"P08709\":{\n\t\"loValue\":30\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":42\n}\n,\"P0C0L5\":{\n\t\"loValue\":12\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":9\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":4\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":9\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":2\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":38\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":4\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":1\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":5\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":1\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":1\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":2\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":3\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":1\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":1\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":1\n}\n,\"Q9UEW3\":{\n\t\"loValue\":2\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":6\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":4\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":1\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6a9baa81-10e8-379f-8dc5-f79d5f8585cb.json b/test/data/enm/study-FCSV-6a9baa81-10e8-379f-8dc5-f79d5f8585cb.json
new file mode 100644
index 0000000..e0f52b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-6a9baa81-10e8-379f-8dc5-f79d5f8585cb.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-6a9baa81-10e8-379f-8dc5-f79d5f8585cb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.208,
+        "errQualifier": "sd",
+        "errorValue": 0.054
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.251,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.87,
+        "errQualifier": "sd",
+        "errorValue": 0.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6aea99af-7833-35a5-b784-f6d0a97e59cf.json b/test/data/enm/study-FCSV-6aea99af-7833-35a5-b784-f6d0a97e59cf.json
new file mode 100644
index 0000000..41caabb
--- /dev/null
+++ b/test/data/enm/study-FCSV-6aea99af-7833-35a5-b784-f6d0a97e59cf.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-6aea99af-7833-35a5-b784-f6d0a97e59cf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 77.02,
+        "errQualifier": "sd",
+        "errorValue": 93.44
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 55.39,
+        "errQualifier": "sd",
+        "errorValue": 16.92
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.46,
+        "errQualifier": "sd",
+        "errorValue": 9.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.34,
+        "errQualifier": "sd",
+        "errorValue": 5.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.3,
+        "errQualifier": "sd",
+        "errorValue": 1.49
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.75,
+        "errQualifier": "sd",
+        "errorValue": 1.63
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.3,
+        "errQualifier": "sd",
+        "errorValue": 24.2
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74.16,
+        "errQualifier": "sd",
+        "errorValue": 28.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6afb3046-f65e-343d-b745-1fc47ff92818.json b/test/data/enm/study-FCSV-6afb3046-f65e-343d-b745-1fc47ff92818.json
new file mode 100644
index 0000000..730045e
--- /dev/null
+++ b/test/data/enm/study-FCSV-6afb3046-f65e-343d-b745-1fc47ff92818.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-6afb3046-f65e-343d-b745-1fc47ff92818",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6b0f981b-2eeb-3e95-bbd5-d49bf3c1cb3f.json b/test/data/enm/study-FCSV-6b0f981b-2eeb-3e95-bbd5-d49bf3c1cb3f.json
new file mode 100644
index 0000000..68bb982
--- /dev/null
+++ b/test/data/enm/study-FCSV-6b0f981b-2eeb-3e95-bbd5-d49bf3c1cb3f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-6b0f981b-2eeb-3e95-bbd5-d49bf3c1cb3f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.276,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.297,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.1,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6b3d395b-2ee2-351b-bae4-89b6e345d5d1.json b/test/data/enm/study-FCSV-6b3d395b-2ee2-351b-bae4-89b6e345d5d1.json
new file mode 100644
index 0000000..ebdc332
--- /dev/null
+++ b/test/data/enm/study-FCSV-6b3d395b-2ee2-351b-bae4-89b6e345d5d1.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-6b3d395b-2ee2-351b-bae4-89b6e345d5d1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6bb96096-898b-3ceb-955a-77c02ae9fe42.json b/test/data/enm/study-FCSV-6bb96096-898b-3ceb-955a-77c02ae9fe42.json
new file mode 100644
index 0000000..2ecaa6e
--- /dev/null
+++ b/test/data/enm/study-FCSV-6bb96096-898b-3ceb-955a-77c02ae9fe42.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-6bb96096-898b-3ceb-955a-77c02ae9fe42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "L-Phenylalanine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6c266706-3749-33ec-8112-4cd0ea0b55d2.json b/test/data/enm/study-FCSV-6c266706-3749-33ec-8112-4cd0ea0b55d2.json
new file mode 100644
index 0000000..2288390
--- /dev/null
+++ b/test/data/enm/study-FCSV-6c266706-3749-33ec-8112-4cd0ea0b55d2.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-6c266706-3749-33ec-8112-4cd0ea0b55d2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.64,
+        "errQualifier": "sd",
+        "errorValue": 0.28
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 44.43,
+        "errQualifier": "sd",
+        "errorValue": 1.7
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.32,
+        "errQualifier": "sd",
+        "errorValue": 2.81
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.8,
+        "errQualifier": "sd",
+        "errorValue": 2.53
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.03,
+        "errQualifier": "sd",
+        "errorValue": 1.61
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.07,
+        "errQualifier": "sd",
+        "errorValue": 5.86
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.03,
+        "errQualifier": "sd",
+        "errorValue": 17.36
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 63.72,
+        "errQualifier": "sd",
+        "errorValue": 14.71
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6d18a9b7-d089-32c2-a68a-5f5bc1846c4e.json b/test/data/enm/study-FCSV-6d18a9b7-d089-32c2-a68a-5f5bc1846c4e.json
new file mode 100644
index 0000000..1e3f0e7
--- /dev/null
+++ b/test/data/enm/study-FCSV-6d18a9b7-d089-32c2-a68a-5f5bc1846c4e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-6d18a9b7-d089-32c2-a68a-5f5bc1846c4e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.04,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.648,
+        "errQualifier": "std",
+        "errorValue": 0.65
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6d84bb3a-c1d6-3d6f-9144-e40bf6f50b63.json b/test/data/enm/study-FCSV-6d84bb3a-c1d6-3d6f-9144-e40bf6f50b63.json
new file mode 100644
index 0000000..734bdf3
--- /dev/null
+++ b/test/data/enm/study-FCSV-6d84bb3a-c1d6-3d6f-9144-e40bf6f50b63.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-6d84bb3a-c1d6-3d6f-9144-e40bf6f50b63",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e127528-80cc-30ff-b251-86ac023ed2d5.json b/test/data/enm/study-FCSV-6e127528-80cc-30ff-b251-86ac023ed2d5.json
new file mode 100644
index 0000000..7115416
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e127528-80cc-30ff-b251-86ac023ed2d5.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-6e127528-80cc-30ff-b251-86ac023ed2d5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 6.442,
+        "errQualifier": "sd",
+        "errorValue": 0.972
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e37a157-59e6-34fe-8d18-5a65cdd14f89.json b/test/data/enm/study-FCSV-6e37a157-59e6-34fe-8d18-5a65cdd14f89.json
new file mode 100644
index 0000000..365b6c3
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e37a157-59e6-34fe-8d18-5a65cdd14f89.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-6e37a157-59e6-34fe-8d18-5a65cdd14f89",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 20.08,
+        "errQualifier": "sd",
+        "errorValue": 1.98
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.2,
+        "errQualifier": "sd",
+        "errorValue": 0.33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e49bfac-bb1b-30b3-b74a-4d6e61becd4f.json b/test/data/enm/study-FCSV-6e49bfac-bb1b-30b3-b74a-4d6e61becd4f.json
new file mode 100644
index 0000000..de71bc6
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e49bfac-bb1b-30b3-b74a-4d6e61becd4f.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-6e49bfac-bb1b-30b3-b74a-4d6e61becd4f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.027,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.224,
+        "errQualifier": "std",
+        "errorValue": 0.246
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e5bbb4f-3c98-3456-84b4-b40e484eefa7.json b/test/data/enm/study-FCSV-6e5bbb4f-3c98-3456-84b4-b40e484eefa7.json
new file mode 100644
index 0000000..bb2d639
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e5bbb4f-3c98-3456-84b4-b40e484eefa7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-6e5bbb4f-3c98-3456-84b4-b40e484eefa7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.412,
+        "errQualifier": "sd",
+        "errorValue": 0.159
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e68c064-b56b-3148-91ba-74704fc191b8.json b/test/data/enm/study-FCSV-6e68c064-b56b-3148-91ba-74704fc191b8.json
new file mode 100644
index 0000000..14931e5
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e68c064-b56b-3148-91ba-74704fc191b8.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-6e68c064-b56b-3148-91ba-74704fc191b8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e70f950-030c-3efe-9365-60071b37c508.json b/test/data/enm/study-FCSV-6e70f950-030c-3efe-9365-60071b37c508.json
new file mode 100644
index 0000000..94be93e
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e70f950-030c-3efe-9365-60071b37c508.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-6e70f950-030c-3efe-9365-60071b37c508",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.153,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e74d9d5-413b-3190-ae7a-43ed3ee55833.json b/test/data/enm/study-FCSV-6e74d9d5-413b-3190-ae7a-43ed3ee55833.json
new file mode 100644
index 0000000..f99cc7d
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e74d9d5-413b-3190-ae7a-43ed3ee55833.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-6e74d9d5-413b-3190-ae7a-43ed3ee55833",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.187,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.336,
+        "errQualifier": "sd",
+        "errorValue": 0.043
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6e950b2e-0248-3c29-83c4-2e3b637fefed.json b/test/data/enm/study-FCSV-6e950b2e-0248-3c29-83c4-2e3b637fefed.json
new file mode 100644
index 0000000..23d7da5
--- /dev/null
+++ b/test/data/enm/study-FCSV-6e950b2e-0248-3c29-83c4-2e3b637fefed.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-6e950b2e-0248-3c29-83c4-2e3b637fefed",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.297,
+        "errQualifier": "sd",
+        "errorValue": 0.062
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.286,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6eb8b79e-7ebf-341d-a2ee-1c7c46dd3972.json b/test/data/enm/study-FCSV-6eb8b79e-7ebf-341d-a2ee-1c7c46dd3972.json
new file mode 100644
index 0000000..6ad603d
--- /dev/null
+++ b/test/data/enm/study-FCSV-6eb8b79e-7ebf-341d-a2ee-1c7c46dd3972.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-6eb8b79e-7ebf-341d-a2ee-1c7c46dd3972",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.032,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.952,
+        "errQualifier": "std",
+        "errorValue": 1.311
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6eefb22e-558e-3574-a943-f26ad3952c09.json b/test/data/enm/study-FCSV-6eefb22e-558e-3574-a943-f26ad3952c09.json
new file mode 100644
index 0000000..c59d9fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-6eefb22e-558e-3574-a943-f26ad3952c09.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-6eefb22e-558e-3574-a943-f26ad3952c09",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":1\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":4\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":280\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":418\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":5\n}\n,\"P01024\":{\n\t\"loValue\":112\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":8\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":12\n}\n,\"P01857\":{\n\t\"loValue\":8\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":8\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":61\n}\n,\"P02649\":{\n\t\"loValue\":269\n}\n,\"P02652\":{\n\t\"loValue\":20\n}\n,\"P02654\":{\n\t\"loValue\":2\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":7\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":7\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":1\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":161\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":14\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":101\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":24\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":5\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":3\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":6\n}\n,\"P08697\":{\n\t\"loValue\":6\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":13\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":1\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":2\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":3\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":27\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":19\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":4\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":4\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":10\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":1\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":2\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":19\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":4\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":1\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6ef7ae9d-c41f-3121-ba50-ecb569dcfc49.json b/test/data/enm/study-FCSV-6ef7ae9d-c41f-3121-ba50-ecb569dcfc49.json
new file mode 100644
index 0000000..74ea76b
--- /dev/null
+++ b/test/data/enm/study-FCSV-6ef7ae9d-c41f-3121-ba50-ecb569dcfc49.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-6ef7ae9d-c41f-3121-ba50-ecb569dcfc49",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.148,
+        "errQualifier": "sd",
+        "errorValue": 0.033
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-fb5e6048-8ee1-351d-915b-d1669681357e.json b/test/data/enm/study-FCSV-6f5ba7be-0358-359e-a41a-238ba9105d70.json
index d15c557..d15c557 100644
--- a/test/data/enm/study-FCSV-fb5e6048-8ee1-351d-915b-d1669681357e.json
+++ b/test/data/enm/study-FCSV-6f5ba7be-0358-359e-a41a-238ba9105d70.json
diff --git a/test/data/enm/study-FCSV-6f7ff67a-b14e-3f65-96b8-9d10a58292d7.json b/test/data/enm/study-FCSV-6f7ff67a-b14e-3f65-96b8-9d10a58292d7.json
new file mode 100644
index 0000000..7fb7e18
--- /dev/null
+++ b/test/data/enm/study-FCSV-6f7ff67a-b14e-3f65-96b8-9d10a58292d7.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-6f7ff67a-b14e-3f65-96b8-9d10a58292d7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.207,
+        "errQualifier": "sd",
+        "errorValue": 0.057
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.302,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 524.9,
+        "errQualifier": "sd",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6f89d75f-7b39-37db-925c-aa66455b6c1c.json b/test/data/enm/study-FCSV-6f89d75f-7b39-37db-925c-aa66455b6c1c.json
new file mode 100644
index 0000000..3358569
--- /dev/null
+++ b/test/data/enm/study-FCSV-6f89d75f-7b39-37db-925c-aa66455b6c1c.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-6f89d75f-7b39-37db-925c-aa66455b6c1c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.281,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.391,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 542.87,
+        "errQualifier": "sd",
+        "errorValue": 0.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-701d499e-29f3-3f25-8dab-ed638f1927dd.json b/test/data/enm/study-FCSV-701d499e-29f3-3f25-8dab-ed638f1927dd.json
new file mode 100644
index 0000000..5dd867e
--- /dev/null
+++ b/test/data/enm/study-FCSV-701d499e-29f3-3f25-8dab-ed638f1927dd.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-701d499e-29f3-3f25-8dab-ed638f1927dd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 1.414,
+        "errQualifier": "sd",
+        "errorValue": 0.4
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.5,
+        "errQualifier": "std",
+        "errorValue": 0.408
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-70a792ad-74b6-3f67-9674-f3c1e8aad7c6.json b/test/data/enm/study-FCSV-70a792ad-74b6-3f67-9674-f3c1e8aad7c6.json
new file mode 100644
index 0000000..d5c10ab
--- /dev/null
+++ b/test/data/enm/study-FCSV-70a792ad-74b6-3f67-9674-f3c1e8aad7c6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-70a792ad-74b6-3f67-9674-f3c1e8aad7c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.193,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.371,
+        "errQualifier": "std",
+        "errorValue": 0.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-70cbd060-4493-388e-bba2-1cbad17079f5.json b/test/data/enm/study-FCSV-70cbd060-4493-388e-bba2-1cbad17079f5.json
new file mode 100644
index 0000000..fe83821
--- /dev/null
+++ b/test/data/enm/study-FCSV-70cbd060-4493-388e-bba2-1cbad17079f5.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-70cbd060-4493-388e-bba2-1cbad17079f5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.012,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.361,
+        "errQualifier": "std",
+        "errorValue": 0.536
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-712f4ae1-fefc-3f8b-b439-a14ecc8625fe.json b/test/data/enm/study-FCSV-712f4ae1-fefc-3f8b-b439-a14ecc8625fe.json
new file mode 100644
index 0000000..9f72f6a
--- /dev/null
+++ b/test/data/enm/study-FCSV-712f4ae1-fefc-3f8b-b439-a14ecc8625fe.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-712f4ae1-fefc-3f8b-b439-a14ecc8625fe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-71403565-16f9-3b91-a3d3-fd77c58275c2.json b/test/data/enm/study-FCSV-71403565-16f9-3b91-a3d3-fd77c58275c2.json
new file mode 100644
index 0000000..3b344d5
--- /dev/null
+++ b/test/data/enm/study-FCSV-71403565-16f9-3b91-a3d3-fd77c58275c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-71403565-16f9-3b91-a3d3-fd77c58275c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.117,
+        "errQualifier": "sd",
+        "errorValue": 0.023
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.135,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7143d40f-0049-3b86-85f8-1f15bd5ad1ae.json b/test/data/enm/study-FCSV-7143d40f-0049-3b86-85f8-1f15bd5ad1ae.json
new file mode 100644
index 0000000..b332b5a
--- /dev/null
+++ b/test/data/enm/study-FCSV-7143d40f-0049-3b86-85f8-1f15bd5ad1ae.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7143d40f-0049-3b86-85f8-1f15bd5ad1ae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-716d33aa-c723-3bf1-8f78-01da0b01dc45.json b/test/data/enm/study-FCSV-716d33aa-c723-3bf1-8f78-01da0b01dc45.json
new file mode 100644
index 0000000..2e14545
--- /dev/null
+++ b/test/data/enm/study-FCSV-716d33aa-c723-3bf1-8f78-01da0b01dc45.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-716d33aa-c723-3bf1-8f78-01da0b01dc45",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7185f2de-6b95-3e4d-8652-3cafa86921d6.json b/test/data/enm/study-FCSV-7185f2de-6b95-3e4d-8652-3cafa86921d6.json
new file mode 100644
index 0000000..05ad8a7
--- /dev/null
+++ b/test/data/enm/study-FCSV-7185f2de-6b95-3e4d-8652-3cafa86921d6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7185f2de-6b95-3e4d-8652-3cafa86921d6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.15,
+        "errQualifier": "sd",
+        "errorValue": 0.052
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.145,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7196d661-ce69-3127-85c0-1b89f2a42669.json b/test/data/enm/study-FCSV-7196d661-ce69-3127-85c0-1b89f2a42669.json
new file mode 100644
index 0000000..32337e0
--- /dev/null
+++ b/test/data/enm/study-FCSV-7196d661-ce69-3127-85c0-1b89f2a42669.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-7196d661-ce69-3127-85c0-1b89f2a42669",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1,2-dioleoyl-3-trimethylammonium-propane"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-720913c2-ed87-37c1-82a6-73b202c7447e.json b/test/data/enm/study-FCSV-720913c2-ed87-37c1-82a6-73b202c7447e.json
new file mode 100644
index 0000000..4ec5c0b
--- /dev/null
+++ b/test/data/enm/study-FCSV-720913c2-ed87-37c1-82a6-73b202c7447e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-720913c2-ed87-37c1-82a6-73b202c7447e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "5,5'-Dithiobis(2-nitrobenzoic acid)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-721d7077-a0e8-3e0b-8de8-bd1f79781b11.json b/test/data/enm/study-FCSV-721d7077-a0e8-3e0b-8de8-bd1f79781b11.json
new file mode 100644
index 0000000..ef3a2df
--- /dev/null
+++ b/test/data/enm/study-FCSV-721d7077-a0e8-3e0b-8de8-bd1f79781b11.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-721d7077-a0e8-3e0b-8de8-bd1f79781b11",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.19,
+        "errQualifier": "sd",
+        "errorValue": 0.31
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 52.42,
+        "errQualifier": "sd",
+        "errorValue": 6.2
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.04,
+        "errQualifier": "sd",
+        "errorValue": 1.45
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 50.9,
+        "errQualifier": "sd",
+        "errorValue": 37.02
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.2,
+        "errQualifier": "sd",
+        "errorValue": 1.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.57,
+        "errQualifier": "sd",
+        "errorValue": 2.42
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.2,
+        "errQualifier": "sd",
+        "errorValue": 6.32
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.7,
+        "errQualifier": "sd",
+        "errorValue": 18.75
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-724d3a48-2f29-3361-803d-93750c154247.json b/test/data/enm/study-FCSV-724d3a48-2f29-3361-803d-93750c154247.json
new file mode 100644
index 0000000..a426cca
--- /dev/null
+++ b/test/data/enm/study-FCSV-724d3a48-2f29-3361-803d-93750c154247.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-724d3a48-2f29-3361-803d-93750c154247",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-731a8e92-4d44-35ac-a1cb-4a4a2eb80695.json b/test/data/enm/study-FCSV-731a8e92-4d44-35ac-a1cb-4a4a2eb80695.json
new file mode 100644
index 0000000..a26062a
--- /dev/null
+++ b/test/data/enm/study-FCSV-731a8e92-4d44-35ac-a1cb-4a4a2eb80695.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-731a8e92-4d44-35ac-a1cb-4a4a2eb80695",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.512,
+        "errQualifier": "sd",
+        "errorValue": 0.049
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.966,
+        "errQualifier": "std",
+        "errorValue": 0.139
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-734de921-ea52-3f39-be90-a2013982e9a8.json b/test/data/enm/study-FCSV-734de921-ea52-3f39-be90-a2013982e9a8.json
new file mode 100644
index 0000000..1cea942
--- /dev/null
+++ b/test/data/enm/study-FCSV-734de921-ea52-3f39-be90-a2013982e9a8.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-734de921-ea52-3f39-be90-a2013982e9a8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 920.341,
+        "errQualifier": "sd",
+        "errorValue": 82.988
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.018
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7413aec1-5b0b-383c-bc90-68f68d60abf6.json b/test/data/enm/study-FCSV-7413aec1-5b0b-383c-bc90-68f68d60abf6.json
new file mode 100644
index 0000000..43f1cb7
--- /dev/null
+++ b/test/data/enm/study-FCSV-7413aec1-5b0b-383c-bc90-68f68d60abf6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7413aec1-5b0b-383c-bc90-68f68d60abf6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "4-Mercaptobenzoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-74308f06-e7be-3c61-87cb-a3cad3fa240b.json b/test/data/enm/study-FCSV-74308f06-e7be-3c61-87cb-a3cad3fa240b.json
new file mode 100644
index 0000000..8fd4354
--- /dev/null
+++ b/test/data/enm/study-FCSV-74308f06-e7be-3c61-87cb-a3cad3fa240b.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-74308f06-e7be-3c61-87cb-a3cad3fa240b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1,2-dioleoyl-3-trimethylammonium-propane"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-750044f2-f204-3f01-9bd3-5c93cacd2bbb.json b/test/data/enm/study-FCSV-750044f2-f204-3f01-9bd3-5c93cacd2bbb.json
new file mode 100644
index 0000000..37cdb37
--- /dev/null
+++ b/test/data/enm/study-FCSV-750044f2-f204-3f01-9bd3-5c93cacd2bbb.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-750044f2-f204-3f01-9bd3-5c93cacd2bbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7507e3d6-3bcd-37ca-9c59-5e7ac2fb900d.json b/test/data/enm/study-FCSV-7507e3d6-3bcd-37ca-9c59-5e7ac2fb900d.json
new file mode 100644
index 0000000..8d4fc8f
--- /dev/null
+++ b/test/data/enm/study-FCSV-7507e3d6-3bcd-37ca-9c59-5e7ac2fb900d.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-7507e3d6-3bcd-37ca-9c59-5e7ac2fb900d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -24.32,
+        "errQualifier": "sd",
+        "errorValue": 3.83
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.42,
+        "errQualifier": "sd",
+        "errorValue": 0.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-752fbf26-da7a-31b7-8f87-45a0ee7121c5.json b/test/data/enm/study-FCSV-752fbf26-da7a-31b7-8f87-45a0ee7121c5.json
new file mode 100644
index 0000000..0e09876
--- /dev/null
+++ b/test/data/enm/study-FCSV-752fbf26-da7a-31b7-8f87-45a0ee7121c5.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-752fbf26-da7a-31b7-8f87-45a0ee7121c5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7542714c-ef5e-3cb3-8195-ccb9efc6d05f.json b/test/data/enm/study-FCSV-7542714c-ef5e-3cb3-8195-ccb9efc6d05f.json
new file mode 100644
index 0000000..9899068
--- /dev/null
+++ b/test/data/enm/study-FCSV-7542714c-ef5e-3cb3-8195-ccb9efc6d05f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7542714c-ef5e-3cb3-8195-ccb9efc6d05f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-glycine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-75aa3277-03c5-3898-bfed-19d5066987c6.json b/test/data/enm/study-FCSV-75aa3277-03c5-3898-bfed-19d5066987c6.json
new file mode 100644
index 0000000..dc0e29b
--- /dev/null
+++ b/test/data/enm/study-FCSV-75aa3277-03c5-3898-bfed-19d5066987c6.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-75aa3277-03c5-3898-bfed-19d5066987c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Pluronic F-127"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-75c71d42-9d36-3ad8-9fff-f511a4e2d183.json b/test/data/enm/study-FCSV-75c71d42-9d36-3ad8-9fff-f511a4e2d183.json
new file mode 100644
index 0000000..f0fb992
--- /dev/null
+++ b/test/data/enm/study-FCSV-75c71d42-9d36-3ad8-9fff-f511a4e2d183.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-75c71d42-9d36-3ad8-9fff-f511a4e2d183",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "deoxycholic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-75c73aaf-bc0e-35b7-bd73-37677f9599ef.json b/test/data/enm/study-FCSV-75c73aaf-bc0e-35b7-bd73-37677f9599ef.json
new file mode 100644
index 0000000..b705f62
--- /dev/null
+++ b/test/data/enm/study-FCSV-75c73aaf-bc0e-35b7-bd73-37677f9599ef.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-75c73aaf-bc0e-35b7-bd73-37677f9599ef",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.47,
+        "errQualifier": "sd",
+        "errorValue": 4.58
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.99,
+        "errQualifier": "sd",
+        "errorValue": 6.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-75d46838-d5d8-33ff-bc6e-9fdce01e9ac7.json b/test/data/enm/study-FCSV-75d46838-d5d8-33ff-bc6e-9fdce01e9ac7.json
new file mode 100644
index 0000000..2357066
--- /dev/null
+++ b/test/data/enm/study-FCSV-75d46838-d5d8-33ff-bc6e-9fdce01e9ac7.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-75d46838-d5d8-33ff-bc6e-9fdce01e9ac7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.217,
+        "errQualifier": "sd",
+        "errorValue": 0.059
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.406,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.37,
+        "errQualifier": "sd",
+        "errorValue": 0.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-75f3ba92-e829-3e5e-95b0-26a9d5193758.json b/test/data/enm/study-FCSV-75f3ba92-e829-3e5e-95b0-26a9d5193758.json
new file mode 100644
index 0000000..c66c91b
--- /dev/null
+++ b/test/data/enm/study-FCSV-75f3ba92-e829-3e5e-95b0-26a9d5193758.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-75f3ba92-e829-3e5e-95b0-26a9d5193758",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.23,
+        "errQualifier": "sd",
+        "errorValue": 0.089
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.363,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 538.97,
+        "errQualifier": "sd",
+        "errorValue": 1.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-767c46cb-7c86-3a9a-a191-6b5978e6b683.json b/test/data/enm/study-FCSV-767c46cb-7c86-3a9a-a191-6b5978e6b683.json
new file mode 100644
index 0000000..7524a74
--- /dev/null
+++ b/test/data/enm/study-FCSV-767c46cb-7c86-3a9a-a191-6b5978e6b683.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-767c46cb-7c86-3a9a-a191-6b5978e6b683",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 240.177,
+        "errQualifier": "sd",
+        "errorValue": 20.229
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.056
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-76a0902a-02f1-33e2-9559-b46d739fa17f.json b/test/data/enm/study-FCSV-76a0902a-02f1-33e2-9559-b46d739fa17f.json
new file mode 100644
index 0000000..6953b00
--- /dev/null
+++ b/test/data/enm/study-FCSV-76a0902a-02f1-33e2-9559-b46d739fa17f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-76a0902a-02f1-33e2-9559-b46d739fa17f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Mercaptosuccinic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-76b49c06-bbc6-34fc-89b4-d478fdf2b776.json b/test/data/enm/study-FCSV-76b49c06-bbc6-34fc-89b4-d478fdf2b776.json
new file mode 100644
index 0000000..e553c77
--- /dev/null
+++ b/test/data/enm/study-FCSV-76b49c06-bbc6-34fc-89b4-d478fdf2b776.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-76b49c06-bbc6-34fc-89b4-d478fdf2b776",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.161,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.226,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-76caca13-6e02-3b29-873f-805f6b81c240.json b/test/data/enm/study-FCSV-76caca13-6e02-3b29-873f-805f6b81c240.json
new file mode 100644
index 0000000..f9d5289
--- /dev/null
+++ b/test/data/enm/study-FCSV-76caca13-6e02-3b29-873f-805f6b81c240.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-76caca13-6e02-3b29-873f-805f6b81c240",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -34.72,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.66,
+        "errQualifier": "sd",
+        "errorValue": 1.39
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-76ed4304-f6aa-37e2-8ec4-187a87535481.json b/test/data/enm/study-FCSV-76ed4304-f6aa-37e2-8ec4-187a87535481.json
new file mode 100644
index 0000000..e9d012e
--- /dev/null
+++ b/test/data/enm/study-FCSV-76ed4304-f6aa-37e2-8ec4-187a87535481.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-76ed4304-f6aa-37e2-8ec4-187a87535481",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.268,
+        "errQualifier": "sd",
+        "errorValue": 0.089
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.346,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-772e534d-b8fe-32c3-9616-76376bec6dc2.json b/test/data/enm/study-FCSV-772e534d-b8fe-32c3-9616-76376bec6dc2.json
new file mode 100644
index 0000000..b6fe0a5
--- /dev/null
+++ b/test/data/enm/study-FCSV-772e534d-b8fe-32c3-9616-76376bec6dc2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-772e534d-b8fe-32c3-9616-76376bec6dc2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7733f892-ba42-3472-a45f-fc77bb15e75e.json b/test/data/enm/study-FCSV-7733f892-ba42-3472-a45f-fc77bb15e75e.json
new file mode 100644
index 0000000..7c5c406
--- /dev/null
+++ b/test/data/enm/study-FCSV-7733f892-ba42-3472-a45f-fc77bb15e75e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-7733f892-ba42-3472-a45f-fc77bb15e75e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":1\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":8\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":7\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":7\n}\n,\"P00734\":{\n\t\"loValue\":244\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":17\n}\n,\"P00739\":{\n\t\"loValue\":13\n}\n,\"P00740\":{\n\t\"loValue\":46\n}\n,\"P00742\":{\n\t\"loValue\":179\n}\n,\"P00746\":{\n\t\"loValue\":4\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":37\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":261\n}\n,\"P01009\":{\n\t\"loValue\":36\n}\n,\"P01011\":{\n\t\"loValue\":5\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":43\n}\n,\"P01024\":{\n\t\"loValue\":119\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":49\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":33\n}\n,\"P01857\":{\n\t\"loValue\":36\n}\n,\"P01859\":{\n\t\"loValue\":10\n}\n,\"P01860\":{\n\t\"loValue\":8\n}\n,\"P01861\":{\n\t\"loValue\":5\n}\n,\"P01871\":{\n\t\"loValue\":48\n}\n,\"P01876\":{\n\t\"loValue\":23\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":261\n}\n,\"P02652\":{\n\t\"loValue\":17\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":53\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":27\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":2\n}\n,\"P02763\":{\n\t\"loValue\":9\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":9\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":38\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":4\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":11\n}\n,\"P03951\":{\n\t\"loValue\":6\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":281\n}\n,\"P04004\":{\n\t\"loValue\":131\n}\n,\"P04070\":{\n\t\"loValue\":27\n}\n,\"P04075\":{\n\t\"loValue\":8\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":18\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":92\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":8\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":1\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":1\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":16\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":12\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":20\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":2\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":136\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":2\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":2\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":12\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":13\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":6\n}\n,\"P08697\":{\n\t\"loValue\":15\n}\n,\"P08709\":{\n\t\"loValue\":3\n}\n,\"P08922\":{\n\t\"loValue\":1\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":84\n}\n,\"P0C0L5\":{\n\t\"loValue\":10\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":1\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":1\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":9\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":9\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":50\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":6\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":2\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":6\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":11\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":16\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":27\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":2\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":1\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":3\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":1\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":4\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":1\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":2\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":3\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":1\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":2\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":1\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":1\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":3\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":1\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":7\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":1\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":1\n}\n,\"Q86UC2\":{\n\t\"loValue\":1\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":4\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":25\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":9\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":3\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":1\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":1\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":1\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":3\n}\n,\"Q9UEW3\":{\n\t\"loValue\":3\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":1\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":32\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-77516e1f-3799-3677-b696-03cd9aa64aa9.json b/test/data/enm/study-FCSV-77516e1f-3799-3677-b696-03cd9aa64aa9.json
new file mode 100644
index 0000000..4222745
--- /dev/null
+++ b/test/data/enm/study-FCSV-77516e1f-3799-3677-b696-03cd9aa64aa9.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-77516e1f-3799-3677-b696-03cd9aa64aa9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -32.67,
+        "errQualifier": "sd",
+        "errorValue": 3.23
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.41,
+        "errQualifier": "sd",
+        "errorValue": 0.84
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7776d5f6-965f-3fd1-9e94-237b5563cb9c.json b/test/data/enm/study-FCSV-7776d5f6-965f-3fd1-9e94-237b5563cb9c.json
new file mode 100644
index 0000000..aa0303f
--- /dev/null
+++ b/test/data/enm/study-FCSV-7776d5f6-965f-3fd1-9e94-237b5563cb9c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7776d5f6-965f-3fd1-9e94-237b5563cb9c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.014,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.168,
+        "errQualifier": "std",
+        "errorValue": 0.459
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-77aa28d9-f7ea-3277-85ca-497343c06271.json b/test/data/enm/study-FCSV-77aa28d9-f7ea-3277-85ca-497343c06271.json
new file mode 100644
index 0000000..e4e5d4e
--- /dev/null
+++ b/test/data/enm/study-FCSV-77aa28d9-f7ea-3277-85ca-497343c06271.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-77aa28d9-f7ea-3277-85ca-497343c06271",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.213,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.216,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.6,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-77f96919-40cc-3bbf-804c-7c8427569d7b.json b/test/data/enm/study-FCSV-77f96919-40cc-3bbf-804c-7c8427569d7b.json
new file mode 100644
index 0000000..1b6c0aa
--- /dev/null
+++ b/test/data/enm/study-FCSV-77f96919-40cc-3bbf-804c-7c8427569d7b.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-77f96919-40cc-3bbf-804c-7c8427569d7b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.251,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.28,
+        "errQualifier": "sd",
+        "errorValue": 0.051
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.6,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-77fa974c-9bc7-3b39-8140-91dc2bb3a721.json b/test/data/enm/study-FCSV-77fa974c-9bc7-3b39-8140-91dc2bb3a721.json
new file mode 100644
index 0000000..11645b4
--- /dev/null
+++ b/test/data/enm/study-FCSV-77fa974c-9bc7-3b39-8140-91dc2bb3a721.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-77fa974c-9bc7-3b39-8140-91dc2bb3a721",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-78014983-6e4c-3039-8233-f52b36e3816c.json b/test/data/enm/study-FCSV-78014983-6e4c-3039-8233-f52b36e3816c.json
new file mode 100644
index 0000000..db30e5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-78014983-6e4c-3039-8233-f52b36e3816c.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-78014983-6e4c-3039-8233-f52b36e3816c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-78a6ca2d-282e-39ec-bae2-14ba7410c7a6.json b/test/data/enm/study-FCSV-78a6ca2d-282e-39ec-bae2-14ba7410c7a6.json
new file mode 100644
index 0000000..e7b6fe2
--- /dev/null
+++ b/test/data/enm/study-FCSV-78a6ca2d-282e-39ec-bae2-14ba7410c7a6.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-78a6ca2d-282e-39ec-bae2-14ba7410c7a6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 740.019,
+        "errQualifier": "sd",
+        "errorValue": 21.476
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.054
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-790270a0-1103-3838-b280-d0f295d4e880.json b/test/data/enm/study-FCSV-790270a0-1103-3838-b280-d0f295d4e880.json
new file mode 100644
index 0000000..410a545
--- /dev/null
+++ b/test/data/enm/study-FCSV-790270a0-1103-3838-b280-d0f295d4e880.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-790270a0-1103-3838-b280-d0f295d4e880",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-791da911-0b17-328e-8c2a-957ed2816bd8.json b/test/data/enm/study-FCSV-791da911-0b17-328e-8c2a-957ed2816bd8.json
new file mode 100644
index 0000000..45161a2
--- /dev/null
+++ b/test/data/enm/study-FCSV-791da911-0b17-328e-8c2a-957ed2816bd8.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-791da911-0b17-328e-8c2a-957ed2816bd8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.104,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.073,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-79703470-8cf6-3ec3-8d17-15acfcdbddd3.json b/test/data/enm/study-FCSV-79703470-8cf6-3ec3-8d17-15acfcdbddd3.json
new file mode 100644
index 0000000..c8ec9db
--- /dev/null
+++ b/test/data/enm/study-FCSV-79703470-8cf6-3ec3-8d17-15acfcdbddd3.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-79703470-8cf6-3ec3-8d17-15acfcdbddd3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.224,
+        "errQualifier": "sd",
+        "errorValue": 0.373
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-79c7384b-50cf-34bb-a09b-6b59e6adc2eb.json b/test/data/enm/study-FCSV-79c7384b-50cf-34bb-a09b-6b59e6adc2eb.json
new file mode 100644
index 0000000..b8b74e8
--- /dev/null
+++ b/test/data/enm/study-FCSV-79c7384b-50cf-34bb-a09b-6b59e6adc2eb.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-79c7384b-50cf-34bb-a09b-6b59e6adc2eb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.5,
+        "errQualifier": "sd",
+        "errorValue": 1.32
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 61.31,
+        "errQualifier": "sd",
+        "errorValue": 2.73
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.38,
+        "errQualifier": "sd",
+        "errorValue": 1.16
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.43,
+        "errQualifier": "sd",
+        "errorValue": 6.56
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.82,
+        "errQualifier": "sd",
+        "errorValue": 1.1
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.39,
+        "errQualifier": "sd",
+        "errorValue": 5.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.82,
+        "errQualifier": "sd",
+        "errorValue": 1.29
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73.4,
+        "errQualifier": "sd",
+        "errorValue": 3.46
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-79daeec1-8b85-3cef-ac66-ff0c58d4ac9c.json b/test/data/enm/study-FCSV-79daeec1-8b85-3cef-ac66-ff0c58d4ac9c.json
new file mode 100644
index 0000000..689285f
--- /dev/null
+++ b/test/data/enm/study-FCSV-79daeec1-8b85-3cef-ac66-ff0c58d4ac9c.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-79daeec1-8b85-3cef-ac66-ff0c58d4ac9c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7a2c3377-7224-39ae-840b-0ff841aec760.json b/test/data/enm/study-FCSV-7a2c3377-7224-39ae-840b-0ff841aec760.json
new file mode 100644
index 0000000..e46dcaf
--- /dev/null
+++ b/test/data/enm/study-FCSV-7a2c3377-7224-39ae-840b-0ff841aec760.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7a2c3377-7224-39ae-840b-0ff841aec760",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-tryptophan"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7a3aa724-b876-3485-9aab-a2467298b98a.json b/test/data/enm/study-FCSV-7a3aa724-b876-3485-9aab-a2467298b98a.json
new file mode 100644
index 0000000..5994873
--- /dev/null
+++ b/test/data/enm/study-FCSV-7a3aa724-b876-3485-9aab-a2467298b98a.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-7a3aa724-b876-3485-9aab-a2467298b98a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 838.439,
+        "errQualifier": "sd",
+        "errorValue": 56.096
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7ae480fc-a523-32c5-9c5e-ade30e7f4d05.json b/test/data/enm/study-FCSV-7ae480fc-a523-32c5-9c5e-ade30e7f4d05.json
new file mode 100644
index 0000000..cadb29a
--- /dev/null
+++ b/test/data/enm/study-FCSV-7ae480fc-a523-32c5-9c5e-ade30e7f4d05.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7ae480fc-a523-32c5-9c5e-ade30e7f4d05",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.419,
+        "errQualifier": "sd",
+        "errorValue": 0.137
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.421,
+        "errQualifier": "sd",
+        "errorValue": 0.101
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7af90c89-bbfc-3449-877c-ebddb21613d9.json b/test/data/enm/study-FCSV-7af90c89-bbfc-3449-877c-ebddb21613d9.json
new file mode 100644
index 0000000..0ae3b69
--- /dev/null
+++ b/test/data/enm/study-FCSV-7af90c89-bbfc-3449-877c-ebddb21613d9.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-7af90c89-bbfc-3449-877c-ebddb21613d9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":23\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":18\n}\n,\"P00736\":{\n\t\"loValue\":2\n}\n,\"P00738\":{\n\t\"loValue\":7\n}\n,\"P00739\":{\n\t\"loValue\":10\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":2\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":8\n}\n,\"P01008\":{\n\t\"loValue\":46\n}\n,\"P01009\":{\n\t\"loValue\":24\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":3\n}\n,\"P01023\":{\n\t\"loValue\":6\n}\n,\"P01024\":{\n\t\"loValue\":144\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":44\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":25\n}\n,\"P01857\":{\n\t\"loValue\":33\n}\n,\"P01859\":{\n\t\"loValue\":9\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":20\n}\n,\"P01876\":{\n\t\"loValue\":12\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":61\n}\n,\"P02649\":{\n\t\"loValue\":32\n}\n,\"P02652\":{\n\t\"loValue\":13\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":6\n}\n,\"P02656\":{\n\t\"loValue\":8\n}\n,\"P02671\":{\n\t\"loValue\":10\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":13\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":13\n}\n,\"P02749\":{\n\t\"loValue\":12\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":13\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":15\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":34\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":8\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":5\n}\n,\"P04003\":{\n\t\"loValue\":5\n}\n,\"P04004\":{\n\t\"loValue\":31\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":207\n}\n,\"P04180\":{\n\t\"loValue\":1\n}\n,\"P04196\":{\n\t\"loValue\":19\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":1\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":9\n}\n,\"P05155\":{\n\t\"loValue\":3\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":1\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":31\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":33\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":7\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":59\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":12\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":48\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":6\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":13\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":14\n}\n,\"P19827\":{\n\t\"loValue\":8\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":3\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":3\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":11\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":16\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":2\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":1\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":8\n}\n,\"P69905\":{\n\t\"loValue\":1\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":2\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":1\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":8\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":62\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":1\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":1\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":1\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":8\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":1\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7b0bd50a-c9fc-3179-8446-a3040a6be223.json b/test/data/enm/study-FCSV-7b0bd50a-c9fc-3179-8446-a3040a6be223.json
new file mode 100644
index 0000000..07f0dd3
--- /dev/null
+++ b/test/data/enm/study-FCSV-7b0bd50a-c9fc-3179-8446-a3040a6be223.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7b0bd50a-c9fc-3179-8446-a3040a6be223",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.044,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.491,
+        "errQualifier": "std",
+        "errorValue": 0.128
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7b45b7b6-7ad3-3209-9858-50696b275a24.json b/test/data/enm/study-FCSV-7b45b7b6-7ad3-3209-9858-50696b275a24.json
new file mode 100644
index 0000000..a48f7c6
--- /dev/null
+++ b/test/data/enm/study-FCSV-7b45b7b6-7ad3-3209-9858-50696b275a24.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7b45b7b6-7ad3-3209-9858-50696b275a24",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.81,
+        "errQualifier": "sd",
+        "errorValue": 0.033
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.303,
+        "errQualifier": "std",
+        "errorValue": 0.059
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7b91e6c5-8d52-348d-a130-4186f772b200.json b/test/data/enm/study-FCSV-7b91e6c5-8d52-348d-a130-4186f772b200.json
new file mode 100644
index 0000000..2b6f534
--- /dev/null
+++ b/test/data/enm/study-FCSV-7b91e6c5-8d52-348d-a130-4186f772b200.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-7b91e6c5-8d52-348d-a130-4186f772b200",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "ethylenediamine-modified poly(styrene-co-maleic anhydride)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7b92d52d-73ce-318d-a2dc-2c5e622ef751.json b/test/data/enm/study-FCSV-7b92d52d-73ce-318d-a2dc-2c5e622ef751.json
new file mode 100644
index 0000000..924846b
--- /dev/null
+++ b/test/data/enm/study-FCSV-7b92d52d-73ce-318d-a2dc-2c5e622ef751.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7b92d52d-73ce-318d-a2dc-2c5e622ef751",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7bc40f11-cb13-3718-89ae-abaf405b2205.json b/test/data/enm/study-FCSV-7bc40f11-cb13-3718-89ae-abaf405b2205.json
new file mode 100644
index 0000000..87d4406
--- /dev/null
+++ b/test/data/enm/study-FCSV-7bc40f11-cb13-3718-89ae-abaf405b2205.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-7bc40f11-cb13-3718-89ae-abaf405b2205",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.58,
+        "errQualifier": "sd",
+        "errorValue": 0.74
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7bd0309d-5ae2-35d7-a4bd-88d3715b325e.json b/test/data/enm/study-FCSV-7bd0309d-5ae2-35d7-a4bd-88d3715b325e.json
new file mode 100644
index 0000000..d0dd08b
--- /dev/null
+++ b/test/data/enm/study-FCSV-7bd0309d-5ae2-35d7-a4bd-88d3715b325e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7bd0309d-5ae2-35d7-a4bd-88d3715b325e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.027,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.229,
+        "errQualifier": "std",
+        "errorValue": 0.397
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7bf4ba9e-0b86-3002-b637-999a9b919fbc.json b/test/data/enm/study-FCSV-7bf4ba9e-0b86-3002-b637-999a9b919fbc.json
new file mode 100644
index 0000000..9542146
--- /dev/null
+++ b/test/data/enm/study-FCSV-7bf4ba9e-0b86-3002-b637-999a9b919fbc.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-7bf4ba9e-0b86-3002-b637-999a9b919fbc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7c03ab92-8335-3eb3-9c74-c121c57c4f01.json b/test/data/enm/study-FCSV-7c03ab92-8335-3eb3-9c74-c121c57c4f01.json
new file mode 100644
index 0000000..6d45ecd
--- /dev/null
+++ b/test/data/enm/study-FCSV-7c03ab92-8335-3eb3-9c74-c121c57c4f01.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7c03ab92-8335-3eb3-9c74-c121c57c4f01",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7c3db675-33fb-360b-adaa-8750da2161f5.json b/test/data/enm/study-FCSV-7c3db675-33fb-360b-adaa-8750da2161f5.json
new file mode 100644
index 0000000..b4c2b92
--- /dev/null
+++ b/test/data/enm/study-FCSV-7c3db675-33fb-360b-adaa-8750da2161f5.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-7c3db675-33fb-360b-adaa-8750da2161f5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.62,
+        "errQualifier": "sd",
+        "errorValue": 1.52
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.07,
+        "errQualifier": "sd",
+        "errorValue": 4.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7c63057e-bf36-3f70-98cc-4b086bea62fc.json b/test/data/enm/study-FCSV-7c63057e-bf36-3f70-98cc-4b086bea62fc.json
new file mode 100644
index 0000000..b262d88
--- /dev/null
+++ b/test/data/enm/study-FCSV-7c63057e-bf36-3f70-98cc-4b086bea62fc.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-7c63057e-bf36-3f70-98cc-4b086bea62fc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7c69c82b-0187-37ff-9a00-50f186402d6c.json b/test/data/enm/study-FCSV-7c69c82b-0187-37ff-9a00-50f186402d6c.json
new file mode 100644
index 0000000..317af77
--- /dev/null
+++ b/test/data/enm/study-FCSV-7c69c82b-0187-37ff-9a00-50f186402d6c.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-7c69c82b-0187-37ff-9a00-50f186402d6c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 837.337,
+        "errQualifier": "sd",
+        "errorValue": 51.657
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.035
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7ccd41a4-c6bb-3039-a9b0-9bd92e2051fd.json b/test/data/enm/study-FCSV-7ccd41a4-c6bb-3039-a9b0-9bd92e2051fd.json
new file mode 100644
index 0000000..8351b06
--- /dev/null
+++ b/test/data/enm/study-FCSV-7ccd41a4-c6bb-3039-a9b0-9bd92e2051fd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7ccd41a4-c6bb-3039-a9b0-9bd92e2051fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7cd49681-3606-306c-b7a5-bb74b11c5f03.json b/test/data/enm/study-FCSV-7cd49681-3606-306c-b7a5-bb74b11c5f03.json
new file mode 100644
index 0000000..8916549
--- /dev/null
+++ b/test/data/enm/study-FCSV-7cd49681-3606-306c-b7a5-bb74b11c5f03.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-7cd49681-3606-306c-b7a5-bb74b11c5f03",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 49.22,
+        "errQualifier": "sd",
+        "errorValue": 35.05
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 61.86,
+        "errQualifier": "sd",
+        "errorValue": 9.35
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.15,
+        "errQualifier": "sd",
+        "errorValue": 14.6
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.51,
+        "errQualifier": "sd",
+        "errorValue": 9.27
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.5,
+        "errQualifier": "sd",
+        "errorValue": 2.74
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.05,
+        "errQualifier": "sd",
+        "errorValue": 3.79
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.5,
+        "errQualifier": "sd",
+        "errorValue": 26.69
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 83.75,
+        "errQualifier": "sd",
+        "errorValue": 5.69
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d043672-8f5a-35e0-9c7e-98ece0083ed1.json b/test/data/enm/study-FCSV-7d043672-8f5a-35e0-9c7e-98ece0083ed1.json
new file mode 100644
index 0000000..01a31b0
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d043672-8f5a-35e0-9c7e-98ece0083ed1.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-7d043672-8f5a-35e0-9c7e-98ece0083ed1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.256,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.278,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 543.83,
+        "errQualifier": "sd",
+        "errorValue": 1.39
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d0bb4dd-ed85-30f6-ba98-1fc013bc6f4a.json b/test/data/enm/study-FCSV-7d0bb4dd-ed85-30f6-ba98-1fc013bc6f4a.json
new file mode 100644
index 0000000..0d71c86
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d0bb4dd-ed85-30f6-ba98-1fc013bc6f4a.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-7d0bb4dd-ed85-30f6-ba98-1fc013bc6f4a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.218,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.28,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.6,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d12f456-ef0b-328f-93ba-f514823d827c.json b/test/data/enm/study-FCSV-7d12f456-ef0b-328f-93ba-f514823d827c.json
new file mode 100644
index 0000000..74b927d
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d12f456-ef0b-328f-93ba-f514823d827c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7d12f456-ef0b-328f-93ba-f514823d827c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.458,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.128,
+        "errQualifier": "std",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d3f2f3d-f9ab-3ded-9548-7a799b765419.json b/test/data/enm/study-FCSV-7d3f2f3d-f9ab-3ded-9548-7a799b765419.json
new file mode 100644
index 0000000..130cc6a
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d3f2f3d-f9ab-3ded-9548-7a799b765419.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-7d3f2f3d-f9ab-3ded-9548-7a799b765419",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "benzyldimethylhexadecylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d870472-2fb8-3056-8baa-21454f1b2989.json b/test/data/enm/study-FCSV-7d870472-2fb8-3056-8baa-21454f1b2989.json
new file mode 100644
index 0000000..b3c73f2
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d870472-2fb8-3056-8baa-21454f1b2989.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-7d870472-2fb8-3056-8baa-21454f1b2989",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.245,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.377,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 524.7,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7d8e6118-dc58-37d2-b909-14588382b459.json b/test/data/enm/study-FCSV-7d8e6118-dc58-37d2-b909-14588382b459.json
new file mode 100644
index 0000000..4de3a10
--- /dev/null
+++ b/test/data/enm/study-FCSV-7d8e6118-dc58-37d2-b909-14588382b459.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-7d8e6118-dc58-37d2-b909-14588382b459",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.94,
+        "errQualifier": "sd",
+        "errorValue": 1.33
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.06,
+        "errQualifier": "sd",
+        "errorValue": 1.05
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7dee205a-dbc9-3031-a452-f97c00ec48b0.json b/test/data/enm/study-FCSV-7dee205a-dbc9-3031-a452-f97c00ec48b0.json
new file mode 100644
index 0000000..9a22686
--- /dev/null
+++ b/test/data/enm/study-FCSV-7dee205a-dbc9-3031-a452-f97c00ec48b0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7dee205a-dbc9-3031-a452-f97c00ec48b0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.202,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.197,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7e7896a4-f3a3-3e01-a638-a45227f5dee2.json b/test/data/enm/study-FCSV-7e7896a4-f3a3-3e01-a638-a45227f5dee2.json
new file mode 100644
index 0000000..a756651
--- /dev/null
+++ b/test/data/enm/study-FCSV-7e7896a4-f3a3-3e01-a638-a45227f5dee2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7e7896a4-f3a3-3e01-a638-a45227f5dee2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-serine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7ec8af44-e498-3e12-b3db-d1ada9f39073.json b/test/data/enm/study-FCSV-7ec8af44-e498-3e12-b3db-d1ada9f39073.json
new file mode 100644
index 0000000..a8e92fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-7ec8af44-e498-3e12-b3db-d1ada9f39073.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-7ec8af44-e498-3e12-b3db-d1ada9f39073",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.358,
+        "errQualifier": "sd",
+        "errorValue": 1.779
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7f505d2b-2dda-3422-94ba-4e7cd06137a1.json b/test/data/enm/study-FCSV-7f505d2b-2dda-3422-94ba-4e7cd06137a1.json
new file mode 100644
index 0000000..9a9b559
--- /dev/null
+++ b/test/data/enm/study-FCSV-7f505d2b-2dda-3422-94ba-4e7cd06137a1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-7f505d2b-2dda-3422-94ba-4e7cd06137a1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "6-Mercaptohexanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7fd74a5d-c0ee-3866-a3d4-53a29580fd83.json b/test/data/enm/study-FCSV-7fd74a5d-c0ee-3866-a3d4-53a29580fd83.json
new file mode 100644
index 0000000..d55b683
--- /dev/null
+++ b/test/data/enm/study-FCSV-7fd74a5d-c0ee-3866-a3d4-53a29580fd83.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7fd74a5d-c0ee-3866-a3d4-53a29580fd83",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.137,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.266,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7fde216d-c151-3a75-bb33-698481422e42.json b/test/data/enm/study-FCSV-7fde216d-c151-3a75-bb33-698481422e42.json
new file mode 100644
index 0000000..c45506c
--- /dev/null
+++ b/test/data/enm/study-FCSV-7fde216d-c151-3a75-bb33-698481422e42.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-7fde216d-c151-3a75-bb33-698481422e42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.331,
+        "errQualifier": "sd",
+        "errorValue": 0.501
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7fe45a88-683c-3075-ac23-53e3045d5b52.json b/test/data/enm/study-FCSV-7fe45a88-683c-3075-ac23-53e3045d5b52.json
new file mode 100644
index 0000000..2656d3d
--- /dev/null
+++ b/test/data/enm/study-FCSV-7fe45a88-683c-3075-ac23-53e3045d5b52.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-7fe45a88-683c-3075-ac23-53e3045d5b52",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.167,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.215,
+        "errQualifier": "sd",
+        "errorValue": 0.033
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-800c9527-74db-3661-86f5-fe2592183750.json b/test/data/enm/study-FCSV-800c9527-74db-3661-86f5-fe2592183750.json
new file mode 100644
index 0000000..9e92106
--- /dev/null
+++ b/test/data/enm/study-FCSV-800c9527-74db-3661-86f5-fe2592183750.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-800c9527-74db-3661-86f5-fe2592183750",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8020833d-f010-399c-b741-a1411384ec41.json b/test/data/enm/study-FCSV-8020833d-f010-399c-b741-a1411384ec41.json
new file mode 100644
index 0000000..21e8176
--- /dev/null
+++ b/test/data/enm/study-FCSV-8020833d-f010-399c-b741-a1411384ec41.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-8020833d-f010-399c-b741-a1411384ec41",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 71.03,
+        "errQualifier": "sd",
+        "errorValue": 2.64
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 109.94,
+        "errQualifier": "sd",
+        "errorValue": 3.54
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67.66,
+        "errQualifier": "sd",
+        "errorValue": 9.76
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 366.09,
+        "errQualifier": "sd",
+        "errorValue": 437.99
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76.52,
+        "errQualifier": "sd",
+        "errorValue": 11.56
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 104.45,
+        "errQualifier": "sd",
+        "errorValue": 6.93
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76.52,
+        "errQualifier": "sd",
+        "errorValue": 2.12
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 132.43,
+        "errQualifier": "sd",
+        "errorValue": 29.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8020e09b-4628-335a-885b-bcbb4346020b.json b/test/data/enm/study-FCSV-8020e09b-4628-335a-885b-bcbb4346020b.json
new file mode 100644
index 0000000..3960f5b
--- /dev/null
+++ b/test/data/enm/study-FCSV-8020e09b-4628-335a-885b-bcbb4346020b.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-8020e09b-4628-335a-885b-bcbb4346020b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 76.5,
+        "errQualifier": "sd",
+        "errorValue": 5.39
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 94.89,
+        "errQualifier": "sd",
+        "errorValue": 6.41
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76.66,
+        "errQualifier": "sd",
+        "errorValue": 7.35
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.61,
+        "errQualifier": "sd",
+        "errorValue": 6.08
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.49,
+        "errQualifier": "sd",
+        "errorValue": 7.29
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67.98,
+        "errQualifier": "sd",
+        "errorValue": 10.75
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.49,
+        "errQualifier": "sd",
+        "errorValue": 7.05
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 105.55,
+        "errQualifier": "sd",
+        "errorValue": 4.88
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-80c711cb-8bec-37ef-afff-f8e199652b52.json b/test/data/enm/study-FCSV-80c711cb-8bec-37ef-afff-f8e199652b52.json
new file mode 100644
index 0000000..db8be88
--- /dev/null
+++ b/test/data/enm/study-FCSV-80c711cb-8bec-37ef-afff-f8e199652b52.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-80c711cb-8bec-37ef-afff-f8e199652b52",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-80edb18f-ba3f-3afd-b007-e8c29a8b6605.json b/test/data/enm/study-FCSV-80edb18f-ba3f-3afd-b007-e8c29a8b6605.json
new file mode 100644
index 0000000..76e9aae
--- /dev/null
+++ b/test/data/enm/study-FCSV-80edb18f-ba3f-3afd-b007-e8c29a8b6605.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-80edb18f-ba3f-3afd-b007-e8c29a8b6605",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-810004ff-bc02-35cd-ad07-83ba6c64e1e2.json b/test/data/enm/study-FCSV-810004ff-bc02-35cd-ad07-83ba6c64e1e2.json
new file mode 100644
index 0000000..de63c76
--- /dev/null
+++ b/test/data/enm/study-FCSV-810004ff-bc02-35cd-ad07-83ba6c64e1e2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-810004ff-bc02-35cd-ad07-83ba6c64e1e2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.203,
+        "errQualifier": "sd",
+        "errorValue": 0.227
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.288,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-810a867c-109b-3893-b749-e5c0cae4e2f0.json b/test/data/enm/study-FCSV-810a867c-109b-3893-b749-e5c0cae4e2f0.json
new file mode 100644
index 0000000..c03018b
--- /dev/null
+++ b/test/data/enm/study-FCSV-810a867c-109b-3893-b749-e5c0cae4e2f0.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-810a867c-109b-3893-b749-e5c0cae4e2f0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.242,
+        "errQualifier": "sd",
+        "errorValue": 0.066
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.294,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.77,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-815620f8-294c-346f-88e6-553cd8f81176.json b/test/data/enm/study-FCSV-815620f8-294c-346f-88e6-553cd8f81176.json
new file mode 100644
index 0000000..f1ccbb1
--- /dev/null
+++ b/test/data/enm/study-FCSV-815620f8-294c-346f-88e6-553cd8f81176.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-815620f8-294c-346f-88e6-553cd8f81176",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.171,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.176,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-81afb5dc-8373-396b-b03d-2c588f20ecc3.json b/test/data/enm/study-FCSV-81afb5dc-8373-396b-b03d-2c588f20ecc3.json
new file mode 100644
index 0000000..6d0bda6
--- /dev/null
+++ b/test/data/enm/study-FCSV-81afb5dc-8373-396b-b03d-2c588f20ecc3.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-81afb5dc-8373-396b-b03d-2c588f20ecc3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.244,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.276,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.7,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-82b91c35-0783-3c94-a83a-b30041d0e55d.json b/test/data/enm/study-FCSV-82b91c35-0783-3c94-a83a-b30041d0e55d.json
new file mode 100644
index 0000000..f153d54
--- /dev/null
+++ b/test/data/enm/study-FCSV-82b91c35-0783-3c94-a83a-b30041d0e55d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-82b91c35-0783-3c94-a83a-b30041d0e55d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 230.517,
+        "errQualifier": "sd",
+        "errorValue": 26.385
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-832b6979-cc95-3201-9639-b71914942da2.json b/test/data/enm/study-FCSV-832b6979-cc95-3201-9639-b71914942da2.json
new file mode 100644
index 0000000..4ec3cd3
--- /dev/null
+++ b/test/data/enm/study-FCSV-832b6979-cc95-3201-9639-b71914942da2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-832b6979-cc95-3201-9639-b71914942da2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.91,
+        "errQualifier": "sd",
+        "errorValue": 0.452
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-835b13cc-d9ad-3643-9d84-792f19fca37b.json b/test/data/enm/study-FCSV-835b13cc-d9ad-3643-9d84-792f19fca37b.json
new file mode 100644
index 0000000..10ba222
--- /dev/null
+++ b/test/data/enm/study-FCSV-835b13cc-d9ad-3643-9d84-792f19fca37b.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-835b13cc-d9ad-3643-9d84-792f19fca37b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 81.94,
+        "errQualifier": "sd",
+        "errorValue": 7.42
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 84.87,
+        "errQualifier": "sd",
+        "errorValue": 8.05
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.49,
+        "errQualifier": "sd",
+        "errorValue": 6.66
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.2,
+        "errQualifier": "sd",
+        "errorValue": 9.28
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.02,
+        "errQualifier": "sd",
+        "errorValue": 8.16
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 78.57,
+        "errQualifier": "sd",
+        "errorValue": 10.9
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.02,
+        "errQualifier": "sd",
+        "errorValue": 4.8
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.48,
+        "errQualifier": "sd",
+        "errorValue": 6.32
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-83fb3d23-2e92-3ec5-bee4-31f176722134.json b/test/data/enm/study-FCSV-83fb3d23-2e92-3ec5-bee4-31f176722134.json
new file mode 100644
index 0000000..b4bc32c
--- /dev/null
+++ b/test/data/enm/study-FCSV-83fb3d23-2e92-3ec5-bee4-31f176722134.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-83fb3d23-2e92-3ec5-bee4-31f176722134",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-84282034-4290-3be7-b443-088e8e334070.json b/test/data/enm/study-FCSV-84282034-4290-3be7-b443-088e8e334070.json
new file mode 100644
index 0000000..000e224
--- /dev/null
+++ b/test/data/enm/study-FCSV-84282034-4290-3be7-b443-088e8e334070.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-84282034-4290-3be7-b443-088e8e334070",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.106,
+        "errQualifier": "sd",
+        "errorValue": 0.023
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.158,
+        "errQualifier": "sd",
+        "errorValue": 0.064
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-84452be5-c1f0-35ab-9b51-5142dcfc9442.json b/test/data/enm/study-FCSV-84452be5-c1f0-35ab-9b51-5142dcfc9442.json
new file mode 100644
index 0000000..f6f58ef
--- /dev/null
+++ b/test/data/enm/study-FCSV-84452be5-c1f0-35ab-9b51-5142dcfc9442.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-84452be5-c1f0-35ab-9b51-5142dcfc9442",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.013,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.269,
+        "errQualifier": "std",
+        "errorValue": 0.898
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-846bf330-233f-3cfe-a727-340dc9ef25c9.json b/test/data/enm/study-FCSV-846bf330-233f-3cfe-a727-340dc9ef25c9.json
new file mode 100644
index 0000000..6212bcb
--- /dev/null
+++ b/test/data/enm/study-FCSV-846bf330-233f-3cfe-a727-340dc9ef25c9.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-846bf330-233f-3cfe-a727-340dc9ef25c9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8491a4a1-53f3-33c5-8dbc-2a932c364a1e.json b/test/data/enm/study-FCSV-8491a4a1-53f3-33c5-8dbc-2a932c364a1e.json
new file mode 100644
index 0000000..a247db3
--- /dev/null
+++ b/test/data/enm/study-FCSV-8491a4a1-53f3-33c5-8dbc-2a932c364a1e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8491a4a1-53f3-33c5-8dbc-2a932c364a1e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(11-Mercaptoundecyl)-N,N,N-trimethylammonium"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8498956e-ae2f-39d7-80b0-0d96c6e138fd.json b/test/data/enm/study-FCSV-8498956e-ae2f-39d7-80b0-0d96c6e138fd.json
new file mode 100644
index 0000000..4bf5c66
--- /dev/null
+++ b/test/data/enm/study-FCSV-8498956e-ae2f-39d7-80b0-0d96c6e138fd.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-8498956e-ae2f-39d7-80b0-0d96c6e138fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 28.04,
+        "errQualifier": "sd",
+        "errorValue": 1.58
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 54.89,
+        "errQualifier": "sd",
+        "errorValue": 1.89
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.69,
+        "errQualifier": "sd",
+        "errorValue": 1.94
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 75.71,
+        "errQualifier": "sd",
+        "errorValue": 52.62
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.18,
+        "errQualifier": "sd",
+        "errorValue": 2.09
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.46,
+        "errQualifier": "sd",
+        "errorValue": 2.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.18,
+        "errQualifier": "sd",
+        "errorValue": 2.41
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.68,
+        "errQualifier": "sd",
+        "errorValue": 16.61
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-84c5d416-3339-381e-af9a-b42200065b53.json b/test/data/enm/study-FCSV-84c5d416-3339-381e-af9a-b42200065b53.json
new file mode 100644
index 0000000..b10579b
--- /dev/null
+++ b/test/data/enm/study-FCSV-84c5d416-3339-381e-af9a-b42200065b53.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-84c5d416-3339-381e-af9a-b42200065b53",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-85459d34-73a1-300b-8288-6bae14d946cb.json b/test/data/enm/study-FCSV-85459d34-73a1-300b-8288-6bae14d946cb.json
new file mode 100644
index 0000000..550bded
--- /dev/null
+++ b/test/data/enm/study-FCSV-85459d34-73a1-300b-8288-6bae14d946cb.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-85459d34-73a1-300b-8288-6bae14d946cb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 24.78,
+        "errQualifier": "sd",
+        "errorValue": 1.74
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 68.07,
+        "errQualifier": "sd",
+        "errorValue": 10.88
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1.02,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 347.84,
+        "errQualifier": "sd",
+        "errorValue": 468.66
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.08,
+        "errQualifier": "sd",
+        "errorValue": 0.22
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.91,
+        "errQualifier": "sd",
+        "errorValue": 13.33
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.08,
+        "errQualifier": "sd",
+        "errorValue": 34.36
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 121.9,
+        "errQualifier": "sd",
+        "errorValue": 31.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8593e832-a6d3-35ee-b387-6501f644e736.json b/test/data/enm/study-FCSV-8593e832-a6d3-35ee-b387-6501f644e736.json
new file mode 100644
index 0000000..e201620
--- /dev/null
+++ b/test/data/enm/study-FCSV-8593e832-a6d3-35ee-b387-6501f644e736.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-8593e832-a6d3-35ee-b387-6501f644e736",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.921,
+        "errQualifier": "sd",
+        "errorValue": 1.048
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-85a50d6e-3f18-3261-99da-ddb636a5ac08.json b/test/data/enm/study-FCSV-85a50d6e-3f18-3261-99da-ddb636a5ac08.json
new file mode 100644
index 0000000..0fc29d8
--- /dev/null
+++ b/test/data/enm/study-FCSV-85a50d6e-3f18-3261-99da-ddb636a5ac08.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-85a50d6e-3f18-3261-99da-ddb636a5ac08",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.126,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.993,
+        "errQualifier": "std",
+        "errorValue": 0.048
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-85b28cdb-29a2-3303-92ea-672e79965978.json b/test/data/enm/study-FCSV-85b28cdb-29a2-3303-92ea-672e79965978.json
new file mode 100644
index 0000000..e28e37c
--- /dev/null
+++ b/test/data/enm/study-FCSV-85b28cdb-29a2-3303-92ea-672e79965978.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-85b28cdb-29a2-3303-92ea-672e79965978",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 56.54,
+        "errQualifier": "sd",
+        "errorValue": 17.47
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 72.3,
+        "errQualifier": "sd",
+        "errorValue": 1.97
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.81,
+        "errQualifier": "sd",
+        "errorValue": 7.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 52.9,
+        "errQualifier": "sd",
+        "errorValue": 7.28
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 61.14,
+        "errQualifier": "sd",
+        "errorValue": 6.12
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.12,
+        "errQualifier": "sd",
+        "errorValue": 8.18
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 61.14,
+        "errQualifier": "sd",
+        "errorValue": 16.87
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 83.14,
+        "errQualifier": "sd",
+        "errorValue": 7.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-863410cc-3c44-3bac-b70c-d6edce365dad.json b/test/data/enm/study-FCSV-863410cc-3c44-3bac-b70c-d6edce365dad.json
new file mode 100644
index 0000000..ec36112
--- /dev/null
+++ b/test/data/enm/study-FCSV-863410cc-3c44-3bac-b70c-d6edce365dad.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-863410cc-3c44-3bac-b70c-d6edce365dad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-863e8abb-da78-36c4-8872-4c336df7eb78.json b/test/data/enm/study-FCSV-863e8abb-da78-36c4-8872-4c336df7eb78.json
new file mode 100644
index 0000000..1e23c4c
--- /dev/null
+++ b/test/data/enm/study-FCSV-863e8abb-da78-36c4-8872-4c336df7eb78.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-863e8abb-da78-36c4-8872-4c336df7eb78",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.216,
+        "errQualifier": "sd",
+        "errorValue": 0.065
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.282,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518,
+        "errQualifier": "sd",
+        "errorValue": 0.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-86749e74-7688-34cf-9366-13cd612517c9.json b/test/data/enm/study-FCSV-86749e74-7688-34cf-9366-13cd612517c9.json
new file mode 100644
index 0000000..9a9926d
--- /dev/null
+++ b/test/data/enm/study-FCSV-86749e74-7688-34cf-9366-13cd612517c9.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-86749e74-7688-34cf-9366-13cd612517c9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.005,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.762,
+        "errQualifier": "std",
+        "errorValue": 1.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8693636f-f6ee-3e38-9ab5-7bbc229c3400.json b/test/data/enm/study-FCSV-8693636f-f6ee-3e38-9ab5-7bbc229c3400.json
new file mode 100644
index 0000000..1fe3ceb
--- /dev/null
+++ b/test/data/enm/study-FCSV-8693636f-f6ee-3e38-9ab5-7bbc229c3400.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8693636f-f6ee-3e38-9ab5-7bbc229c3400",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (1kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-86d482b8-31d4-31c8-80ac-27b6f1d39d4c.json b/test/data/enm/study-FCSV-86d482b8-31d4-31c8-80ac-27b6f1d39d4c.json
new file mode 100644
index 0000000..eb4796b
--- /dev/null
+++ b/test/data/enm/study-FCSV-86d482b8-31d4-31c8-80ac-27b6f1d39d4c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-86d482b8-31d4-31c8-80ac-27b6f1d39d4c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.019,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.737,
+        "errQualifier": "std",
+        "errorValue": 0.659
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-86fa7c5a-cb3f-3171-a641-5690df291a03.json b/test/data/enm/study-FCSV-86fa7c5a-cb3f-3171-a641-5690df291a03.json
new file mode 100644
index 0000000..fd4ce3c
--- /dev/null
+++ b/test/data/enm/study-FCSV-86fa7c5a-cb3f-3171-a641-5690df291a03.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-86fa7c5a-cb3f-3171-a641-5690df291a03",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":1\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":6\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":1\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":27\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":6\n}\n,\"P00739\":{\n\t\"loValue\":9\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":6\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":2\n}\n,\"P01009\":{\n\t\"loValue\":81\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":46\n}\n,\"P01024\":{\n\t\"loValue\":67\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":2\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":26\n}\n,\"P01859\":{\n\t\"loValue\":6\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":37\n}\n,\"P01876\":{\n\t\"loValue\":28\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":21\n}\n,\"P02649\":{\n\t\"loValue\":7\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":3\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":1\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":35\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":13\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":15\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":38\n}\n,\"P04004\":{\n\t\"loValue\":249\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":85\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":4\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":2\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":7\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":1\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":3\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":2\n}\n,\"P08519\":{\n\t\"loValue\":2\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":27\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":52\n}\n,\"P0C0L5\":{\n\t\"loValue\":16\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":11\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":17\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":9\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":4\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":160\n}\n,\"P19827\":{\n\t\"loValue\":111\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":1\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":9\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":1\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":15\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":16\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":1\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":172\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":2\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":1\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":1\n}\n,\"Q9NSC2\":{\n\t\"loValue\":1\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":1\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-870d6aed-7447-324d-865a-f7b608ce0166.json b/test/data/enm/study-FCSV-870d6aed-7447-324d-865a-f7b608ce0166.json
new file mode 100644
index 0000000..837cab3
--- /dev/null
+++ b/test/data/enm/study-FCSV-870d6aed-7447-324d-865a-f7b608ce0166.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-870d6aed-7447-324d-865a-f7b608ce0166",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.83,
+        "errQualifier": "sd",
+        "errorValue": 0.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-87695bc4-e2bb-38f8-b9f2-a2977673feaa.json b/test/data/enm/study-FCSV-87695bc4-e2bb-38f8-b9f2-a2977673feaa.json
new file mode 100644
index 0000000..fb9c791
--- /dev/null
+++ b/test/data/enm/study-FCSV-87695bc4-e2bb-38f8-b9f2-a2977673feaa.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-87695bc4-e2bb-38f8-b9f2-a2977673feaa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 24.19,
+        "errQualifier": "sd",
+        "errorValue": 0.78
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.88,
+        "errQualifier": "sd",
+        "errorValue": 0.95
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.04,
+        "errQualifier": "sd",
+        "errorValue": 0.9
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.15,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.94,
+        "errQualifier": "sd",
+        "errorValue": 2.83
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.75,
+        "errQualifier": "sd",
+        "errorValue": 2.37
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.94,
+        "errQualifier": "sd",
+        "errorValue": 2.04
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.8,
+        "errQualifier": "sd",
+        "errorValue": 2.13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-87744a9f-8f59-347a-b7cb-7db7dcf4dc56.json b/test/data/enm/study-FCSV-87744a9f-8f59-347a-b7cb-7db7dcf4dc56.json
new file mode 100644
index 0000000..a21e0aa
--- /dev/null
+++ b/test/data/enm/study-FCSV-87744a9f-8f59-347a-b7cb-7db7dcf4dc56.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-87744a9f-8f59-347a-b7cb-7db7dcf4dc56",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.06,
+        "errQualifier": "sd",
+        "errorValue": 0.507
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-877cf51d-4921-3db3-a7a3-5c172872b61a.json b/test/data/enm/study-FCSV-877cf51d-4921-3db3-a7a3-5c172872b61a.json
new file mode 100644
index 0000000..ce9dfd8
--- /dev/null
+++ b/test/data/enm/study-FCSV-877cf51d-4921-3db3-a7a3-5c172872b61a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-877cf51d-4921-3db3-a7a3-5c172872b61a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":23\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":2\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":65\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":97\n}\n,\"P01009\":{\n\t\"loValue\":64\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":5\n}\n,\"P01024\":{\n\t\"loValue\":104\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":32\n}\n,\"P01857\":{\n\t\"loValue\":26\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":29\n}\n,\"P01876\":{\n\t\"loValue\":21\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":101\n}\n,\"P02649\":{\n\t\"loValue\":70\n}\n,\"P02652\":{\n\t\"loValue\":21\n}\n,\"P02654\":{\n\t\"loValue\":7\n}\n,\"P02655\":{\n\t\"loValue\":7\n}\n,\"P02656\":{\n\t\"loValue\":4\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":25\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":2\n}\n,\"P02749\":{\n\t\"loValue\":33\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":15\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":15\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":58\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":173\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":28\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":2\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":4\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":1\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":23\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":2\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":4\n}\n,\"P08697\":{\n\t\"loValue\":1\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":12\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":22\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":7\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":3\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":2\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":8\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":23\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":34\n}\n,\"P35555\":{\n\t\"loValue\":1\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":11\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":3\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":1\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":5\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":2\n}\n,\"Q02817\":{\n\t\"loValue\":1\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":2\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":9\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":1\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":5\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":1\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":1\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":2\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":2\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":2\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":4\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":3\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":1\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":5\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-878cbd23-fdf1-3942-af3c-57bd886f1553.json b/test/data/enm/study-FCSV-878cbd23-fdf1-3942-af3c-57bd886f1553.json
new file mode 100644
index 0000000..345d22c
--- /dev/null
+++ b/test/data/enm/study-FCSV-878cbd23-fdf1-3942-af3c-57bd886f1553.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-878cbd23-fdf1-3942-af3c-57bd886f1553",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Citrate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-87bfbff9-cda6-388c-a927-0d1af0d3a6c4.json b/test/data/enm/study-FCSV-87bfbff9-cda6-388c-a927-0d1af0d3a6c4.json
new file mode 100644
index 0000000..5f4de9b
--- /dev/null
+++ b/test/data/enm/study-FCSV-87bfbff9-cda6-388c-a927-0d1af0d3a6c4.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-87bfbff9-cda6-388c-a927-0d1af0d3a6c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-87f5d87c-e64e-3e39-ae9f-4b3ff5887dfd.json b/test/data/enm/study-FCSV-87f5d87c-e64e-3e39-ae9f-4b3ff5887dfd.json
new file mode 100644
index 0000000..ecc35e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-87f5d87c-e64e-3e39-ae9f-4b3ff5887dfd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-87f5d87c-e64e-3e39-ae9f-4b3ff5887dfd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-88615611-42b9-31c6-adfe-9855235f4bf1.json b/test/data/enm/study-FCSV-88615611-42b9-31c6-adfe-9855235f4bf1.json
new file mode 100644
index 0000000..10cbb9e
--- /dev/null
+++ b/test/data/enm/study-FCSV-88615611-42b9-31c6-adfe-9855235f4bf1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-88615611-42b9-31c6-adfe-9855235f4bf1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.1,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.096,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-88c52ddb-728c-39b7-9937-7f3a308e8e7d.json b/test/data/enm/study-FCSV-88c52ddb-728c-39b7-9937-7f3a308e8e7d.json
new file mode 100644
index 0000000..9b6603a
--- /dev/null
+++ b/test/data/enm/study-FCSV-88c52ddb-728c-39b7-9937-7f3a308e8e7d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-88c52ddb-728c-39b7-9937-7f3a308e8e7d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 235.484,
+        "errQualifier": "sd",
+        "errorValue": 1.236
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-88d6d22b-7048-3573-8d37-7a1f9eea24b7.json b/test/data/enm/study-FCSV-88d6d22b-7048-3573-8d37-7a1f9eea24b7.json
new file mode 100644
index 0000000..89884cd
--- /dev/null
+++ b/test/data/enm/study-FCSV-88d6d22b-7048-3573-8d37-7a1f9eea24b7.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-88d6d22b-7048-3573-8d37-7a1f9eea24b7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 774.66,
+        "errQualifier": "sd",
+        "errorValue": 8.363
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 8,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.036
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-88dd6e3b-8d64-3025-bcc1-fa6e781c05c2.json b/test/data/enm/study-FCSV-88dd6e3b-8d64-3025-bcc1-fa6e781c05c2.json
new file mode 100644
index 0000000..f3c3964
--- /dev/null
+++ b/test/data/enm/study-FCSV-88dd6e3b-8d64-3025-bcc1-fa6e781c05c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-88dd6e3b-8d64-3025-bcc1-fa6e781c05c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.022,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.028,
+        "errQualifier": "sd",
+        "errorValue": 0.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-88ee43b6-8a97-3b62-a583-6a42876cfe7e.json b/test/data/enm/study-FCSV-88ee43b6-8a97-3b62-a583-6a42876cfe7e.json
new file mode 100644
index 0000000..f2687e9
--- /dev/null
+++ b/test/data/enm/study-FCSV-88ee43b6-8a97-3b62-a583-6a42876cfe7e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-88ee43b6-8a97-3b62-a583-6a42876cfe7e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.216,
+        "errQualifier": "sd",
+        "errorValue": 0.027
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.194,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8906c5a5-e98a-3c4b-b5e1-2e034354dd70.json b/test/data/enm/study-FCSV-8906c5a5-e98a-3c4b-b5e1-2e034354dd70.json
new file mode 100644
index 0000000..bebe8a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-8906c5a5-e98a-3c4b-b5e1-2e034354dd70.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-8906c5a5-e98a-3c4b-b5e1-2e034354dd70",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.834,
+        "errQualifier": "sd",
+        "errorValue": 0.742
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-893b3a4f-3a7a-3ca6-8b98-56eff949dc5a.json b/test/data/enm/study-FCSV-893b3a4f-3a7a-3ca6-8b98-56eff949dc5a.json
new file mode 100644
index 0000000..699e127
--- /dev/null
+++ b/test/data/enm/study-FCSV-893b3a4f-3a7a-3ca6-8b98-56eff949dc5a.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-893b3a4f-3a7a-3ca6-8b98-56eff949dc5a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "stearic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8976c22d-dbe6-378a-bc46-897155990eda.json b/test/data/enm/study-FCSV-8976c22d-dbe6-378a-bc46-897155990eda.json
new file mode 100644
index 0000000..36fac0a
--- /dev/null
+++ b/test/data/enm/study-FCSV-8976c22d-dbe6-378a-bc46-897155990eda.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8976c22d-dbe6-378a-bc46-897155990eda",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":23\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":46\n}\n,\"P00736\":{\n\t\"loValue\":7\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":6\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":4\n}\n,\"P01008\":{\n\t\"loValue\":68\n}\n,\"P01009\":{\n\t\"loValue\":48\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":7\n}\n,\"P01024\":{\n\t\"loValue\":130\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":47\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":31\n}\n,\"P01857\":{\n\t\"loValue\":16\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":4\n}\n,\"P01871\":{\n\t\"loValue\":24\n}\n,\"P01876\":{\n\t\"loValue\":33\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":81\n}\n,\"P02649\":{\n\t\"loValue\":22\n}\n,\"P02652\":{\n\t\"loValue\":22\n}\n,\"P02654\":{\n\t\"loValue\":3\n}\n,\"P02655\":{\n\t\"loValue\":8\n}\n,\"P02656\":{\n\t\"loValue\":17\n}\n,\"P02671\":{\n\t\"loValue\":9\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":7\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":11\n}\n,\"P02749\":{\n\t\"loValue\":2\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":3\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":25\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":12\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":15\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":10\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":42\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":249\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":11\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":4\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":6\n}\n,\"P05155\":{\n\t\"loValue\":2\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":12\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":26\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":2\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":5\n}\n,\"P0C0L4\":{\n\t\"loValue\":37\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":62\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":1\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":15\n}\n,\"P19827\":{\n\t\"loValue\":11\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":11\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":17\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":4\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":1\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":1\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":3\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":16\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":1\n}\n,\"Q14624\":{\n\t\"loValue\":55\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":1\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":1\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":7\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":2\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":2\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":2\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":1\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-899abb39-bd01-3ff7-8efe-be10d63b64ac.json b/test/data/enm/study-FCSV-899abb39-bd01-3ff7-8efe-be10d63b64ac.json
new file mode 100644
index 0000000..065673d
--- /dev/null
+++ b/test/data/enm/study-FCSV-899abb39-bd01-3ff7-8efe-be10d63b64ac.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-899abb39-bd01-3ff7-8efe-be10d63b64ac",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.09,
+        "errQualifier": "sd",
+        "errorValue": 1.52
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 37.75,
+        "errQualifier": "sd",
+        "errorValue": 2.3
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.22,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74.66,
+        "errQualifier": "sd",
+        "errorValue": 46.91
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.04,
+        "errQualifier": "sd",
+        "errorValue": 0.54
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.4,
+        "errQualifier": "sd",
+        "errorValue": 7.28
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.04,
+        "errQualifier": "sd",
+        "errorValue": 0.8
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.92,
+        "errQualifier": "sd",
+        "errorValue": 19.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-89be2bda-58ee-316e-84c5-c34757aac32b.json b/test/data/enm/study-FCSV-89be2bda-58ee-316e-84c5-c34757aac32b.json
new file mode 100644
index 0000000..d899a8b
--- /dev/null
+++ b/test/data/enm/study-FCSV-89be2bda-58ee-316e-84c5-c34757aac32b.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-89be2bda-58ee-316e-84c5-c34757aac32b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.02,
+        "errQualifier": "sd",
+        "errorValue": 0.38
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -3.89,
+        "errQualifier": "sd",
+        "errorValue": 2.53
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8a1fade0-eae6-33b0-acd8-e60031a3e03f.json b/test/data/enm/study-FCSV-8a1fade0-eae6-33b0-acd8-e60031a3e03f.json
new file mode 100644
index 0000000..0489cd4
--- /dev/null
+++ b/test/data/enm/study-FCSV-8a1fade0-eae6-33b0-acd8-e60031a3e03f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-8a1fade0-eae6-33b0-acd8-e60031a3e03f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.28,
+        "errQualifier": "sd",
+        "errorValue": 0.054
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.307,
+        "errQualifier": "sd",
+        "errorValue": 0.084
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 544.1,
+        "errQualifier": "sd",
+        "errorValue": 1.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8a5eafaf-d3cd-336e-bbeb-101e6aa4b20f.json b/test/data/enm/study-FCSV-8a5eafaf-d3cd-336e-bbeb-101e6aa4b20f.json
new file mode 100644
index 0000000..c5600f7
--- /dev/null
+++ b/test/data/enm/study-FCSV-8a5eafaf-d3cd-336e-bbeb-101e6aa4b20f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-8a5eafaf-d3cd-336e-bbeb-101e6aa4b20f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 7.278,
+        "errQualifier": "sd",
+        "errorValue": 1.288
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8ac3b0d4-6cd0-3563-9b99-e398a4713062.json b/test/data/enm/study-FCSV-8ac3b0d4-6cd0-3563-9b99-e398a4713062.json
new file mode 100644
index 0000000..ba63b4a
--- /dev/null
+++ b/test/data/enm/study-FCSV-8ac3b0d4-6cd0-3563-9b99-e398a4713062.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8ac3b0d4-6cd0-3563-9b99-e398a4713062",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8afdac83-1c56-3861-ab6d-59983f8e1737.json b/test/data/enm/study-FCSV-8afdac83-1c56-3861-ab6d-59983f8e1737.json
new file mode 100644
index 0000000..b45782d
--- /dev/null
+++ b/test/data/enm/study-FCSV-8afdac83-1c56-3861-ab6d-59983f8e1737.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-8afdac83-1c56-3861-ab6d-59983f8e1737",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.272,
+        "errQualifier": "sd",
+        "errorValue": 0.342
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8b9a51b3-0a4e-3d9e-9266-9353658d84d4.json b/test/data/enm/study-FCSV-8b9a51b3-0a4e-3d9e-9266-9353658d84d4.json
new file mode 100644
index 0000000..91462aa
--- /dev/null
+++ b/test/data/enm/study-FCSV-8b9a51b3-0a4e-3d9e-9266-9353658d84d4.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8b9a51b3-0a4e-3d9e-9266-9353658d84d4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8c26b01f-3d41-30b6-9055-7efaa29e495a.json b/test/data/enm/study-FCSV-8c26b01f-3d41-30b6-9055-7efaa29e495a.json
new file mode 100644
index 0000000..e6719e7
--- /dev/null
+++ b/test/data/enm/study-FCSV-8c26b01f-3d41-30b6-9055-7efaa29e495a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8c26b01f-3d41-30b6-9055-7efaa29e495a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":44\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":3\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":1\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":22\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":2\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":55\n}\n,\"P00736\":{\n\t\"loValue\":14\n}\n,\"P00738\":{\n\t\"loValue\":7\n}\n,\"P00739\":{\n\t\"loValue\":25\n}\n,\"P00740\":{\n\t\"loValue\":1\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":57\n}\n,\"P01009\":{\n\t\"loValue\":194\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":10\n}\n,\"P01023\":{\n\t\"loValue\":10\n}\n,\"P01024\":{\n\t\"loValue\":106\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":2\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":31\n}\n,\"P01857\":{\n\t\"loValue\":25\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":41\n}\n,\"P01876\":{\n\t\"loValue\":27\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":62\n}\n,\"P02649\":{\n\t\"loValue\":57\n}\n,\"P02652\":{\n\t\"loValue\":30\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":7\n}\n,\"P02656\":{\n\t\"loValue\":7\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":2\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":53\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":12\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":101\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":293\n}\n,\"P04180\":{\n\t\"loValue\":3\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":8\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":3\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":4\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":51\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":2\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":2\n}\n,\"P08519\":{\n\t\"loValue\":3\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":11\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":8\n}\n,\"P0C0L4\":{\n\t\"loValue\":27\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":191\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":2\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":1\n}\n,\"P19823\":{\n\t\"loValue\":19\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":115\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":16\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":15\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":1\n}\n,\"P55056\":{\n\t\"loValue\":4\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":9\n}\n,\"P69905\":{\n\t\"loValue\":7\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":1\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":1\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":48\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":2\n}\n,\"Q14624\":{\n\t\"loValue\":8\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":7\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":1\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":9\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":1\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":1\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":2\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":1\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":1\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":8\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":23\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":3\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":3\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":1\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":5\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":6\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":12\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8c5bcdfe-39f9-38da-ad75-5adba4db4aa3.json b/test/data/enm/study-FCSV-8c5bcdfe-39f9-38da-ad75-5adba4db4aa3.json
new file mode 100644
index 0000000..9951c13
--- /dev/null
+++ b/test/data/enm/study-FCSV-8c5bcdfe-39f9-38da-ad75-5adba4db4aa3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-8c5bcdfe-39f9-38da-ad75-5adba4db4aa3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.371,
+        "errQualifier": "sd",
+        "errorValue": 0.064
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.439,
+        "errQualifier": "sd",
+        "errorValue": 0.056
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8c89f8b9-a382-37ae-a218-a40715465ac6.json b/test/data/enm/study-FCSV-8c89f8b9-a382-37ae-a218-a40715465ac6.json
new file mode 100644
index 0000000..bdd6dac
--- /dev/null
+++ b/test/data/enm/study-FCSV-8c89f8b9-a382-37ae-a218-a40715465ac6.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-8c89f8b9-a382-37ae-a218-a40715465ac6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.008,
+        "errQualifier": "sd",
+        "errorValue": 1.048
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8cd113a0-46d5-300b-a410-2042a1431fae.json b/test/data/enm/study-FCSV-8cd113a0-46d5-300b-a410-2042a1431fae.json
new file mode 100644
index 0000000..cfa6629
--- /dev/null
+++ b/test/data/enm/study-FCSV-8cd113a0-46d5-300b-a410-2042a1431fae.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-8cd113a0-46d5-300b-a410-2042a1431fae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.065,
+        "errQualifier": "sd",
+        "errorValue": 0.032
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.954,
+        "errQualifier": "std",
+        "errorValue": 0.718
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8cfa97c2-a145-3115-8591-322a57cbc66a.json b/test/data/enm/study-FCSV-8cfa97c2-a145-3115-8591-322a57cbc66a.json
new file mode 100644
index 0000000..de1b661
--- /dev/null
+++ b/test/data/enm/study-FCSV-8cfa97c2-a145-3115-8591-322a57cbc66a.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-8cfa97c2-a145-3115-8591-322a57cbc66a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8d4344b6-664c-3036-a1b6-e5fbe17f4c0b.json b/test/data/enm/study-FCSV-8d4344b6-664c-3036-a1b6-e5fbe17f4c0b.json
new file mode 100644
index 0000000..a889038
--- /dev/null
+++ b/test/data/enm/study-FCSV-8d4344b6-664c-3036-a1b6-e5fbe17f4c0b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8d4344b6-664c-3036-a1b6-e5fbe17f4c0b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":3\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":1\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":2\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":12\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":12\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":802\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":19\n}\n,\"P00739\":{\n\t\"loValue\":13\n}\n,\"P00740\":{\n\t\"loValue\":88\n}\n,\"P00742\":{\n\t\"loValue\":131\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":46\n}\n,\"P01009\":{\n\t\"loValue\":61\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":38\n}\n,\"P01024\":{\n\t\"loValue\":108\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":4\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":5\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":40\n}\n,\"P01857\":{\n\t\"loValue\":49\n}\n,\"P01859\":{\n\t\"loValue\":12\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":75\n}\n,\"P01876\":{\n\t\"loValue\":25\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":10\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":13\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":4\n}\n,\"P02760\":{\n\t\"loValue\":12\n}\n,\"P02763\":{\n\t\"loValue\":6\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":8\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":41\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":446\n}\n,\"P04004\":{\n\t\"loValue\":154\n}\n,\"P04070\":{\n\t\"loValue\":41\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":13\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":6\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":4\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":7\n}\n,\"P05155\":{\n\t\"loValue\":7\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":5\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":200\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":4\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":21\n}\n,\"P08709\":{\n\t\"loValue\":13\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":227\n}\n,\"P0C0L5\":{\n\t\"loValue\":14\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":1\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":12\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":1\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":22\n}\n,\"P19827\":{\n\t\"loValue\":12\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":51\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":34\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":1\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":2\n}\n,\"P28325\":{\n\t\"loValue\":2\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":1\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":5\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":1\n}\n,\"Q13310\":{\n\t\"loValue\":2\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":1\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":60\n}\n,\"Q14624\":{\n\t\"loValue\":18\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":1\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":1\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":1\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":1\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":4\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":1\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":2\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":5\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":1\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8d6b1b26-3768-318a-b393-90f1c4d078c0.json b/test/data/enm/study-FCSV-8d6b1b26-3768-318a-b393-90f1c4d078c0.json
new file mode 100644
index 0000000..ac9abbb
--- /dev/null
+++ b/test/data/enm/study-FCSV-8d6b1b26-3768-318a-b393-90f1c4d078c0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-8d6b1b26-3768-318a-b393-90f1c4d078c0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.025,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.309,
+        "errQualifier": "std",
+        "errorValue": 0.189
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8d9180d5-c858-324d-9a8b-ef0c317a8796.json b/test/data/enm/study-FCSV-8d9180d5-c858-324d-9a8b-ef0c317a8796.json
new file mode 100644
index 0000000..d9e206d
--- /dev/null
+++ b/test/data/enm/study-FCSV-8d9180d5-c858-324d-9a8b-ef0c317a8796.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8d9180d5-c858-324d-9a8b-ef0c317a8796",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8da82514-9d1c-36ea-aece-2317a1382bf5.json b/test/data/enm/study-FCSV-8da82514-9d1c-36ea-aece-2317a1382bf5.json
new file mode 100644
index 0000000..6a2187b
--- /dev/null
+++ b/test/data/enm/study-FCSV-8da82514-9d1c-36ea-aece-2317a1382bf5.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-8da82514-9d1c-36ea-aece-2317a1382bf5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "hexadecyltrimethylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8db48b46-4bfa-3b94-8d7d-3d03ef4f89a2.json b/test/data/enm/study-FCSV-8db48b46-4bfa-3b94-8d7d-3d03ef4f89a2.json
new file mode 100644
index 0000000..cc31610
--- /dev/null
+++ b/test/data/enm/study-FCSV-8db48b46-4bfa-3b94-8d7d-3d03ef4f89a2.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8db48b46-4bfa-3b94-8d7d-3d03ef4f89a2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":154\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":5\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":390\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":11\n}\n,\"P01024\":{\n\t\"loValue\":101\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":21\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":7\n}\n,\"P01857\":{\n\t\"loValue\":4\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":7\n}\n,\"P02649\":{\n\t\"loValue\":134\n}\n,\"P02652\":{\n\t\"loValue\":13\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":20\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":4\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":13\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":10\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":106\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":21\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":39\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":20\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":21\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":22\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":11\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":2\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":7\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":2\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":11\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":7\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":2\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8dc1341b-fc11-38d1-8c3e-1443f333d06f.json b/test/data/enm/study-FCSV-8dc1341b-fc11-38d1-8c3e-1443f333d06f.json
new file mode 100644
index 0000000..629f731
--- /dev/null
+++ b/test/data/enm/study-FCSV-8dc1341b-fc11-38d1-8c3e-1443f333d06f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8dc1341b-fc11-38d1-8c3e-1443f333d06f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":5\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":1\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":10\n}\n,\"P00736\":{\n\t\"loValue\":1\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":0\n}\n,\"P01009\":{\n\t\"loValue\":83\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":31\n}\n,\"P01024\":{\n\t\"loValue\":62\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":30\n}\n,\"P01857\":{\n\t\"loValue\":27\n}\n,\"P01859\":{\n\t\"loValue\":5\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":23\n}\n,\"P01876\":{\n\t\"loValue\":19\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":21\n}\n,\"P02649\":{\n\t\"loValue\":10\n}\n,\"P02652\":{\n\t\"loValue\":1\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":11\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":1\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":26\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":10\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":1\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":12\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":3\n}\n,\"P04004\":{\n\t\"loValue\":117\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":37\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":7\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":8\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":2\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":32\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":2\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":56\n}\n,\"P0C0L5\":{\n\t\"loValue\":13\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":2\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":6\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":7\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":5\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":100\n}\n,\"P19827\":{\n\t\"loValue\":74\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":1\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":5\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":19\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":136\n}\n,\"Q14624\":{\n\t\"loValue\":2\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":1\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":1\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":1\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":3\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8df90dbe-eb93-3d89-bc5b-ef8acf283bf4.json b/test/data/enm/study-FCSV-8df90dbe-eb93-3d89-bc5b-ef8acf283bf4.json
new file mode 100644
index 0000000..1f08efe
--- /dev/null
+++ b/test/data/enm/study-FCSV-8df90dbe-eb93-3d89-bc5b-ef8acf283bf4.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-8df90dbe-eb93-3d89-bc5b-ef8acf283bf4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.135,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.078,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8e24b31d-ebbf-399a-ba3b-836d1c719260.json b/test/data/enm/study-FCSV-8e24b31d-ebbf-399a-ba3b-836d1c719260.json
new file mode 100644
index 0000000..5895720
--- /dev/null
+++ b/test/data/enm/study-FCSV-8e24b31d-ebbf-399a-ba3b-836d1c719260.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8e24b31d-ebbf-399a-ba3b-836d1c719260",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":1\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":15\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":23\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":24\n}\n,\"P00739\":{\n\t\"loValue\":19\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":3\n}\n,\"P01008\":{\n\t\"loValue\":33\n}\n,\"P01009\":{\n\t\"loValue\":57\n}\n,\"P01011\":{\n\t\"loValue\":9\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":70\n}\n,\"P01024\":{\n\t\"loValue\":125\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":191\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":6\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":1\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":2\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":37\n}\n,\"P01857\":{\n\t\"loValue\":37\n}\n,\"P01859\":{\n\t\"loValue\":18\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":9\n}\n,\"P01871\":{\n\t\"loValue\":30\n}\n,\"P01876\":{\n\t\"loValue\":23\n}\n,\"P01877\":{\n\t\"loValue\":3\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":25\n}\n,\"P02649\":{\n\t\"loValue\":10\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":18\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":49\n}\n,\"P02763\":{\n\t\"loValue\":10\n}\n,\"P02765\":{\n\t\"loValue\":7\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":17\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":55\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":4\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":25\n}\n,\"P03952\":{\n\t\"loValue\":32\n}\n,\"P04003\":{\n\t\"loValue\":6\n}\n,\"P04004\":{\n\t\"loValue\":24\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":31\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":69\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":11\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":8\n}\n,\"P05155\":{\n\t\"loValue\":10\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":3\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":1\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":4\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":41\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":4\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":16\n}\n,\"P19827\":{\n\t\"loValue\":11\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":5\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":5\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":1\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":4\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":1\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":1\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":26\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":1\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":1\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":1\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":1\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8e85f9ea-756f-3bc6-afe0-ecb1aff2d056.json b/test/data/enm/study-FCSV-8e85f9ea-756f-3bc6-afe0-ecb1aff2d056.json
new file mode 100644
index 0000000..f81a7b7
--- /dev/null
+++ b/test/data/enm/study-FCSV-8e85f9ea-756f-3bc6-afe0-ecb1aff2d056.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-8e85f9ea-756f-3bc6-afe0-ecb1aff2d056",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8ea30a7c-6284-3602-a682-83fe0374deea.json b/test/data/enm/study-FCSV-8ea30a7c-6284-3602-a682-83fe0374deea.json
new file mode 100644
index 0000000..cab70a4
--- /dev/null
+++ b/test/data/enm/study-FCSV-8ea30a7c-6284-3602-a682-83fe0374deea.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-8ea30a7c-6284-3602-a682-83fe0374deea",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":11\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":251\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":63\n}\n,\"P00742\":{\n\t\"loValue\":121\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":104\n}\n,\"P01009\":{\n\t\"loValue\":25\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":54\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":53\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":26\n}\n,\"P01857\":{\n\t\"loValue\":11\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":34\n}\n,\"P01876\":{\n\t\"loValue\":13\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":6\n}\n,\"P02649\":{\n\t\"loValue\":177\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":56\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":15\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":1\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":168\n}\n,\"P04004\":{\n\t\"loValue\":50\n}\n,\"P04070\":{\n\t\"loValue\":41\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":26\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":2\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":107\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":13\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":59\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":11\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":10\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":11\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":30\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":6\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":3\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":2\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8ee6302a-79f0-319a-bbef-e5fb86fc2d5d.json b/test/data/enm/study-FCSV-8ee6302a-79f0-319a-bbef-e5fb86fc2d5d.json
new file mode 100644
index 0000000..fec5766
--- /dev/null
+++ b/test/data/enm/study-FCSV-8ee6302a-79f0-319a-bbef-e5fb86fc2d5d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-8ee6302a-79f0-319a-bbef-e5fb86fc2d5d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8fcd233b-1cd8-3920-b51c-aa54581d3515.json b/test/data/enm/study-FCSV-8fcd233b-1cd8-3920-b51c-aa54581d3515.json
new file mode 100644
index 0000000..84ea4f0
--- /dev/null
+++ b/test/data/enm/study-FCSV-8fcd233b-1cd8-3920-b51c-aa54581d3515.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-8fcd233b-1cd8-3920-b51c-aa54581d3515",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.352,
+        "errQualifier": "sd",
+        "errorValue": 0.055
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.348,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.13,
+        "errQualifier": "sd",
+        "errorValue": 2.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8fe99120-9f7d-31ef-8410-84ee7c9e4350.json b/test/data/enm/study-FCSV-8fe99120-9f7d-31ef-8410-84ee7c9e4350.json
new file mode 100644
index 0000000..f9cc833
--- /dev/null
+++ b/test/data/enm/study-FCSV-8fe99120-9f7d-31ef-8410-84ee7c9e4350.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-8fe99120-9f7d-31ef-8410-84ee7c9e4350",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9016a1bc-28d2-3146-9d07-eb4eb0f33fcd.json b/test/data/enm/study-FCSV-9016a1bc-28d2-3146-9d07-eb4eb0f33fcd.json
new file mode 100644
index 0000000..ff18aa5
--- /dev/null
+++ b/test/data/enm/study-FCSV-9016a1bc-28d2-3146-9d07-eb4eb0f33fcd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9016a1bc-28d2-3146-9d07-eb4eb0f33fcd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Mercaptoethanesulfonate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-902cb4a8-0cdf-35fd-9d6b-2aa7e4542619.json b/test/data/enm/study-FCSV-902cb4a8-0cdf-35fd-9d6b-2aa7e4542619.json
new file mode 100644
index 0000000..f600efb
--- /dev/null
+++ b/test/data/enm/study-FCSV-902cb4a8-0cdf-35fd-9d6b-2aa7e4542619.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-902cb4a8-0cdf-35fd-9d6b-2aa7e4542619",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":11\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":10\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":1\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":1\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":2\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":130\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":46\n}\n,\"P00739\":{\n\t\"loValue\":62\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":4\n}\n,\"P01008\":{\n\t\"loValue\":146\n}\n,\"P01009\":{\n\t\"loValue\":50\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":16\n}\n,\"P01024\":{\n\t\"loValue\":173\n}\n,\"P01031\":{\n\t\"loValue\":1\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":188\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":3\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":12\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":2\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":11\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":35\n}\n,\"P01857\":{\n\t\"loValue\":38\n}\n,\"P01859\":{\n\t\"loValue\":10\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":25\n}\n,\"P01876\":{\n\t\"loValue\":27\n}\n,\"P01877\":{\n\t\"loValue\":5\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":141\n}\n,\"P02649\":{\n\t\"loValue\":173\n}\n,\"P02652\":{\n\t\"loValue\":47\n}\n,\"P02654\":{\n\t\"loValue\":7\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":5\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":6\n}\n,\"P02749\":{\n\t\"loValue\":10\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":3\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":7\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":39\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":109\n}\n,\"P03952\":{\n\t\"loValue\":26\n}\n,\"P04003\":{\n\t\"loValue\":32\n}\n,\"P04004\":{\n\t\"loValue\":331\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":22\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":14\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":3\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":2\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":14\n}\n,\"P05155\":{\n\t\"loValue\":1\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":72\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":6\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":15\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":25\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":36\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":4\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":106\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":10\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":3\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":1\n}\n,\"P18428\":{\n\t\"loValue\":3\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":4\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":6\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":1\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":2\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":33\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":40\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":1\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":27\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":9\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":2\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":6\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":20\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":4\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":4\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":7\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":1\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":6\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9040ccc7-24a1-3ae4-a191-8fc9e4bf0ca4.json b/test/data/enm/study-FCSV-9040ccc7-24a1-3ae4-a191-8fc9e4bf0ca4.json
new file mode 100644
index 0000000..28042af
--- /dev/null
+++ b/test/data/enm/study-FCSV-9040ccc7-24a1-3ae4-a191-8fc9e4bf0ca4.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9040ccc7-24a1-3ae4-a191-8fc9e4bf0ca4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.303,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.316,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 527.13,
+        "errQualifier": "sd",
+        "errorValue": 0.55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-904adcf1-d74f-391e-beac-572065358853.json b/test/data/enm/study-FCSV-904adcf1-d74f-391e-beac-572065358853.json
new file mode 100644
index 0000000..0136a7d
--- /dev/null
+++ b/test/data/enm/study-FCSV-904adcf1-d74f-391e-beac-572065358853.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-904adcf1-d74f-391e-beac-572065358853",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.12,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-90b560f1-57f9-33d1-9b47-336da2e32382.json b/test/data/enm/study-FCSV-90b560f1-57f9-33d1-9b47-336da2e32382.json
new file mode 100644
index 0000000..8c3efc1
--- /dev/null
+++ b/test/data/enm/study-FCSV-90b560f1-57f9-33d1-9b47-336da2e32382.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-90b560f1-57f9-33d1-9b47-336da2e32382",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-912557fc-cf41-3f03-8e23-c0fc93bc28bc.json b/test/data/enm/study-FCSV-912557fc-cf41-3f03-8e23-c0fc93bc28bc.json
new file mode 100644
index 0000000..0973240
--- /dev/null
+++ b/test/data/enm/study-FCSV-912557fc-cf41-3f03-8e23-c0fc93bc28bc.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-912557fc-cf41-3f03-8e23-c0fc93bc28bc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.274,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.327,
+        "errQualifier": "sd",
+        "errorValue": 0.043
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.57,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-91279481-6eeb-346b-949a-65853738b445.json b/test/data/enm/study-FCSV-91279481-6eeb-346b-949a-65853738b445.json
new file mode 100644
index 0000000..4aeb1f2
--- /dev/null
+++ b/test/data/enm/study-FCSV-91279481-6eeb-346b-949a-65853738b445.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-91279481-6eeb-346b-949a-65853738b445",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 76.53,
+        "errQualifier": "sd",
+        "errorValue": 4.06
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 100.73,
+        "errQualifier": "sd",
+        "errorValue": 3.31
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.74,
+        "errQualifier": "sd",
+        "errorValue": 5.78
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.48,
+        "errQualifier": "sd",
+        "errorValue": 11.4
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.81,
+        "errQualifier": "sd",
+        "errorValue": 5.8
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.98,
+        "errQualifier": "sd",
+        "errorValue": 9.04
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.81,
+        "errQualifier": "sd",
+        "errorValue": 4.72
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 110.74,
+        "errQualifier": "sd",
+        "errorValue": 3.65
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-91293291-0e43-34e6-b34f-d6deb55ce8d3.json b/test/data/enm/study-FCSV-91293291-0e43-34e6-b34f-d6deb55ce8d3.json
new file mode 100644
index 0000000..db7adf8
--- /dev/null
+++ b/test/data/enm/study-FCSV-91293291-0e43-34e6-b34f-d6deb55ce8d3.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-91293291-0e43-34e6-b34f-d6deb55ce8d3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 183.16,
+        "errQualifier": "sd",
+        "errorValue": 265.6
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.77,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 299.33,
+        "errQualifier": "sd",
+        "errorValue": 458.46
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.39,
+        "errQualifier": "sd",
+        "errorValue": 2.42
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 281.85,
+        "errQualifier": "sd",
+        "errorValue": 104.06
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.01,
+        "errQualifier": "sd",
+        "errorValue": 3.05
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 281.85,
+        "errQualifier": "sd",
+        "errorValue": 387.14
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74.93,
+        "errQualifier": "sd",
+        "errorValue": 0.43
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-912dda58-f26b-3273-afa9-8230e0143479.json b/test/data/enm/study-FCSV-912dda58-f26b-3273-afa9-8230e0143479.json
new file mode 100644
index 0000000..e25dca1
--- /dev/null
+++ b/test/data/enm/study-FCSV-912dda58-f26b-3273-afa9-8230e0143479.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-912dda58-f26b-3273-afa9-8230e0143479",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.602,
+        "errQualifier": "sd",
+        "errorValue": 0.963
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9191cdb1-a0e0-308e-80f2-ce6aee57d22d.json b/test/data/enm/study-FCSV-9191cdb1-a0e0-308e-80f2-ce6aee57d22d.json
new file mode 100644
index 0000000..8a127f8
--- /dev/null
+++ b/test/data/enm/study-FCSV-9191cdb1-a0e0-308e-80f2-ce6aee57d22d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-9191cdb1-a0e0-308e-80f2-ce6aee57d22d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":1\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":134\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":39\n}\n,\"P00742\":{\n\t\"loValue\":107\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":165\n}\n,\"P01009\":{\n\t\"loValue\":5\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":36\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":22\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":23\n}\n,\"P01857\":{\n\t\"loValue\":9\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":33\n}\n,\"P01876\":{\n\t\"loValue\":11\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":7\n}\n,\"P02649\":{\n\t\"loValue\":62\n}\n,\"P02652\":{\n\t\"loValue\":2\n}\n,\"P02654\":{\n\t\"loValue\":8\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":35\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":1\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":14\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":2\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":183\n}\n,\"P04004\":{\n\t\"loValue\":59\n}\n,\"P04070\":{\n\t\"loValue\":8\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":3\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":68\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":5\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":4\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":8\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":125\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":5\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":70\n}\n,\"P0C0L5\":{\n\t\"loValue\":11\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":9\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":16\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":2\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":7\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":2\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":1\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":3\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-91968a66-9099-39a4-b30a-74dd06edf757.json b/test/data/enm/study-FCSV-91968a66-9099-39a4-b30a-74dd06edf757.json
new file mode 100644
index 0000000..4165fc4
--- /dev/null
+++ b/test/data/enm/study-FCSV-91968a66-9099-39a4-b30a-74dd06edf757.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-91968a66-9099-39a4-b30a-74dd06edf757",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Octadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-91de3ce1-b571-3713-8403-5fa8e9a37111.json b/test/data/enm/study-FCSV-91de3ce1-b571-3713-8403-5fa8e9a37111.json
new file mode 100644
index 0000000..10b4d3d
--- /dev/null
+++ b/test/data/enm/study-FCSV-91de3ce1-b571-3713-8403-5fa8e9a37111.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-91de3ce1-b571-3713-8403-5fa8e9a37111",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 33.6,
+        "errQualifier": "sd",
+        "errorValue": 12.04
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 58.95,
+        "errQualifier": "sd",
+        "errorValue": 0.08
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 16.66,
+        "errQualifier": "sd",
+        "errorValue": 13.27
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.85,
+        "errQualifier": "sd",
+        "errorValue": 8.97
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.99,
+        "errQualifier": "sd",
+        "errorValue": 12.67
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.12,
+        "errQualifier": "sd",
+        "errorValue": 3.72
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.99,
+        "errQualifier": "sd",
+        "errorValue": 2.76
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.33,
+        "errQualifier": "sd",
+        "errorValue": 12.34
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-920b32ec-b7d5-3208-a4c3-236f82fa392a.json b/test/data/enm/study-FCSV-920b32ec-b7d5-3208-a4c3-236f82fa392a.json
new file mode 100644
index 0000000..75bac5e
--- /dev/null
+++ b/test/data/enm/study-FCSV-920b32ec-b7d5-3208-a4c3-236f82fa392a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-920b32ec-b7d5-3208-a4c3-236f82fa392a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.014,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.142,
+        "errQualifier": "std",
+        "errorValue": 1.406
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-921b64d2-8271-3bb5-80a4-49b48d0597b1.json b/test/data/enm/study-FCSV-921b64d2-8271-3bb5-80a4-49b48d0597b1.json
new file mode 100644
index 0000000..fb8a880
--- /dev/null
+++ b/test/data/enm/study-FCSV-921b64d2-8271-3bb5-80a4-49b48d0597b1.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-921b64d2-8271-3bb5-80a4-49b48d0597b1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 689.286,
+        "errQualifier": "sd",
+        "errorValue": 60.729
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9249eeb8-97be-3f97-9569-b70e5fa13698.json b/test/data/enm/study-FCSV-9249eeb8-97be-3f97-9569-b70e5fa13698.json
new file mode 100644
index 0000000..f5a7782
--- /dev/null
+++ b/test/data/enm/study-FCSV-9249eeb8-97be-3f97-9569-b70e5fa13698.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9249eeb8-97be-3f97-9569-b70e5fa13698",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.241,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.414,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.73,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-934993ac-cac7-3f4e-bf09-d897307af6e2.json b/test/data/enm/study-FCSV-934993ac-cac7-3f4e-bf09-d897307af6e2.json
new file mode 100644
index 0000000..7732b5b
--- /dev/null
+++ b/test/data/enm/study-FCSV-934993ac-cac7-3f4e-bf09-d897307af6e2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-934993ac-cac7-3f4e-bf09-d897307af6e2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.808,
+        "errQualifier": "sd",
+        "errorValue": 0.46
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-935509eb-930a-3b78-819f-ddfada80fb16.json b/test/data/enm/study-FCSV-935509eb-930a-3b78-819f-ddfada80fb16.json
new file mode 100644
index 0000000..40c98d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-935509eb-930a-3b78-819f-ddfada80fb16.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-935509eb-930a-3b78-819f-ddfada80fb16",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Citrate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-937fa256-97c9-3e65-a573-a59213ac1593.json b/test/data/enm/study-FCSV-937fa256-97c9-3e65-a573-a59213ac1593.json
new file mode 100644
index 0000000..1caaf6f
--- /dev/null
+++ b/test/data/enm/study-FCSV-937fa256-97c9-3e65-a573-a59213ac1593.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-937fa256-97c9-3e65-a573-a59213ac1593",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(11-Mercaptoundecyl)-N,N,N-trimethylammonium"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-94001a46-eb63-365f-84d9-8a57011d8956.json b/test/data/enm/study-FCSV-94001a46-eb63-365f-84d9-8a57011d8956.json
new file mode 100644
index 0000000..55049f7
--- /dev/null
+++ b/test/data/enm/study-FCSV-94001a46-eb63-365f-84d9-8a57011d8956.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-94001a46-eb63-365f-84d9-8a57011d8956",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":44\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":121\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":2\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":249\n}\n,\"P01009\":{\n\t\"loValue\":12\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":126\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":6\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":33\n}\n,\"P01857\":{\n\t\"loValue\":15\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":36\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":71\n}\n,\"P02649\":{\n\t\"loValue\":80\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":9\n}\n,\"P02656\":{\n\t\"loValue\":9\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":8\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":5\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":17\n}\n,\"P02749\":{\n\t\"loValue\":10\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":16\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":5\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":70\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":3\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":280\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":35\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":2\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":5\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":8\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":10\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":2\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":17\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":1\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":21\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":9\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":45\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":2\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":4\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":1\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":1\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":6\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":40\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":14\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":9\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":1\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":3\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":10\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":1\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":5\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":2\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":5\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":5\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9418cd42-5fcd-37b7-93c7-31a57bb14e3e.json b/test/data/enm/study-FCSV-9418cd42-5fcd-37b7-93c7-31a57bb14e3e.json
new file mode 100644
index 0000000..d399eb9
--- /dev/null
+++ b/test/data/enm/study-FCSV-9418cd42-5fcd-37b7-93c7-31a57bb14e3e.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-9418cd42-5fcd-37b7-93c7-31a57bb14e3e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1,2-dioleoyl-3-trimethylammonium-propane"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-942e0772-3012-3107-a09e-02b287fc96d3.json b/test/data/enm/study-FCSV-942e0772-3012-3107-a09e-02b287fc96d3.json
new file mode 100644
index 0000000..b03bf67
--- /dev/null
+++ b/test/data/enm/study-FCSV-942e0772-3012-3107-a09e-02b287fc96d3.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-942e0772-3012-3107-a09e-02b287fc96d3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9476f9db-39df-3d43-9781-d7c788763c6e.json b/test/data/enm/study-FCSV-9476f9db-39df-3d43-9781-d7c788763c6e.json
new file mode 100644
index 0000000..3fb247f
--- /dev/null
+++ b/test/data/enm/study-FCSV-9476f9db-39df-3d43-9781-d7c788763c6e.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9476f9db-39df-3d43-9781-d7c788763c6e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-948aef9b-4a51-3580-a6c2-f278ae66ba47.json b/test/data/enm/study-FCSV-948aef9b-4a51-3580-a6c2-f278ae66ba47.json
new file mode 100644
index 0000000..6a09ba0
--- /dev/null
+++ b/test/data/enm/study-FCSV-948aef9b-4a51-3580-a6c2-f278ae66ba47.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-948aef9b-4a51-3580-a6c2-f278ae66ba47",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 81.01,
+        "errQualifier": "sd",
+        "errorValue": 2.09
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 108.27,
+        "errQualifier": "sd",
+        "errorValue": 2.16
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.59,
+        "errQualifier": "sd",
+        "errorValue": 16.54
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 244.57,
+        "errQualifier": "sd",
+        "errorValue": 239.33
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.28,
+        "errQualifier": "sd",
+        "errorValue": 20.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 88.72,
+        "errQualifier": "sd",
+        "errorValue": 7.88
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 87.28,
+        "errQualifier": "sd",
+        "errorValue": 1.91
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 121.04,
+        "errQualifier": "sd",
+        "errorValue": 13.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9490351e-af3e-3e4a-81f9-bca1f3a537e6.json b/test/data/enm/study-FCSV-9490351e-af3e-3e4a-81f9-bca1f3a537e6.json
new file mode 100644
index 0000000..995ae5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-9490351e-af3e-3e4a-81f9-bca1f3a537e6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9490351e-af3e-3e4a-81f9-bca1f3a537e6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-94aab4c9-2ae4-3d23-96d8-df3cadfe37f2.json b/test/data/enm/study-FCSV-94aab4c9-2ae4-3d23-96d8-df3cadfe37f2.json
new file mode 100644
index 0000000..5948d4c
--- /dev/null
+++ b/test/data/enm/study-FCSV-94aab4c9-2ae4-3d23-96d8-df3cadfe37f2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-94aab4c9-2ae4-3d23-96d8-df3cadfe37f2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Poly(vinyl alcohol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-94b5f31e-61a7-3f1b-b89f-24d4310fe924.json b/test/data/enm/study-FCSV-94b5f31e-61a7-3f1b-b89f-24d4310fe924.json
new file mode 100644
index 0000000..45e8869
--- /dev/null
+++ b/test/data/enm/study-FCSV-94b5f31e-61a7-3f1b-b89f-24d4310fe924.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-94b5f31e-61a7-3f1b-b89f-24d4310fe924",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 34.33,
+        "errQualifier": "sd",
+        "errorValue": 21.22
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 52,
+        "errQualifier": "sd",
+        "errorValue": 5.26
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.29,
+        "errQualifier": "sd",
+        "errorValue": 3.7
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.58,
+        "errQualifier": "sd",
+        "errorValue": 10.91
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 49.98,
+        "errQualifier": "sd",
+        "errorValue": 4.8
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.23,
+        "errQualifier": "sd",
+        "errorValue": 9.24
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 49.98,
+        "errQualifier": "sd",
+        "errorValue": 46.28
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67.07,
+        "errQualifier": "sd",
+        "errorValue": 9.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-94d66c14-a96c-301c-a611-b4f1c33cf3a8.json b/test/data/enm/study-FCSV-94d66c14-a96c-301c-a611-b4f1c33cf3a8.json
new file mode 100644
index 0000000..f749413
--- /dev/null
+++ b/test/data/enm/study-FCSV-94d66c14-a96c-301c-a611-b4f1c33cf3a8.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-94d66c14-a96c-301c-a611-b4f1c33cf3a8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-94fdd043-a71c-3db4-9e90-938ef777a411.json b/test/data/enm/study-FCSV-94fdd043-a71c-3db4-9e90-938ef777a411.json
new file mode 100644
index 0000000..a1962b9
--- /dev/null
+++ b/test/data/enm/study-FCSV-94fdd043-a71c-3db4-9e90-938ef777a411.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-94fdd043-a71c-3db4-9e90-938ef777a411",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.497,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.009,
+        "errQualifier": "std",
+        "errorValue": 0.084
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-951a4235-fe0f-30d4-8701-5fd126717490.json b/test/data/enm/study-FCSV-951a4235-fe0f-30d4-8701-5fd126717490.json
new file mode 100644
index 0000000..1b3af1b
--- /dev/null
+++ b/test/data/enm/study-FCSV-951a4235-fe0f-30d4-8701-5fd126717490.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-951a4235-fe0f-30d4-8701-5fd126717490",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.003,
+        "errQualifier": "sd",
+        "errorValue": 0.00085
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -8.589,
+        "errQualifier": "std",
+        "errorValue": 0.471
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-953b2cd9-f78f-3d77-9587-79781c5aca42.json b/test/data/enm/study-FCSV-953b2cd9-f78f-3d77-9587-79781c5aca42.json
new file mode 100644
index 0000000..83b41b4
--- /dev/null
+++ b/test/data/enm/study-FCSV-953b2cd9-f78f-3d77-9587-79781c5aca42.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-953b2cd9-f78f-3d77-9587-79781c5aca42",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 16.08,
+        "errQualifier": "sd",
+        "errorValue": 4.91
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.82,
+        "errQualifier": "sd",
+        "errorValue": 0.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-957da91b-298d-31a0-b950-1cb727cd3079.json b/test/data/enm/study-FCSV-957da91b-298d-31a0-b950-1cb727cd3079.json
new file mode 100644
index 0000000..d7c4268
--- /dev/null
+++ b/test/data/enm/study-FCSV-957da91b-298d-31a0-b950-1cb727cd3079.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-957da91b-298d-31a0-b950-1cb727cd3079",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Citrate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-95f29c87-d4c7-31ca-8274-dff74479ef24.json b/test/data/enm/study-FCSV-95f29c87-d4c7-31ca-8274-dff74479ef24.json
new file mode 100644
index 0000000..892a368
--- /dev/null
+++ b/test/data/enm/study-FCSV-95f29c87-d4c7-31ca-8274-dff74479ef24.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-95f29c87-d4c7-31ca-8274-dff74479ef24",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.004,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.929,
+        "errQualifier": "std",
+        "errorValue": 0.809
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9613e875-e726-367c-bac6-ccecfa1bee1e.json b/test/data/enm/study-FCSV-9613e875-e726-367c-bac6-ccecfa1bee1e.json
new file mode 100644
index 0000000..e2eabaa
--- /dev/null
+++ b/test/data/enm/study-FCSV-9613e875-e726-367c-bac6-ccecfa1bee1e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9613e875-e726-367c-bac6-ccecfa1bee1e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Peptide sequence 'CVVIT'"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96162508-fde3-3aef-a932-6d8518f797df.json b/test/data/enm/study-FCSV-96162508-fde3-3aef-a932-6d8518f797df.json
new file mode 100644
index 0000000..2f296e0
--- /dev/null
+++ b/test/data/enm/study-FCSV-96162508-fde3-3aef-a932-6d8518f797df.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-96162508-fde3-3aef-a932-6d8518f797df",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96196eb8-e43b-37db-b38d-7520995423b1.json b/test/data/enm/study-FCSV-96196eb8-e43b-37db-b38d-7520995423b1.json
new file mode 100644
index 0000000..9484a06
--- /dev/null
+++ b/test/data/enm/study-FCSV-96196eb8-e43b-37db-b38d-7520995423b1.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-96196eb8-e43b-37db-b38d-7520995423b1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -29.75,
+        "errQualifier": "sd",
+        "errorValue": 3.38
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.41,
+        "errQualifier": "sd",
+        "errorValue": 3.56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-961fe8aa-11d7-3151-93ab-ec1898f4b37f.json b/test/data/enm/study-FCSV-961fe8aa-11d7-3151-93ab-ec1898f4b37f.json
new file mode 100644
index 0000000..ee704f3
--- /dev/null
+++ b/test/data/enm/study-FCSV-961fe8aa-11d7-3151-93ab-ec1898f4b37f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-961fe8aa-11d7-3151-93ab-ec1898f4b37f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":77\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":27\n}\n,\"P00742\":{\n\t\"loValue\":45\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":20\n}\n,\"P00748\":{\n\t\"loValue\":46\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":233\n}\n,\"P01009\":{\n\t\"loValue\":39\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":69\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":194\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":15\n}\n,\"P01857\":{\n\t\"loValue\":8\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":12\n}\n,\"P01876\":{\n\t\"loValue\":12\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":8\n}\n,\"P02649\":{\n\t\"loValue\":26\n}\n,\"P02652\":{\n\t\"loValue\":3\n}\n,\"P02654\":{\n\t\"loValue\":24\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":9\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":6\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":6\n}\n,\"P03951\":{\n\t\"loValue\":75\n}\n,\"P03952\":{\n\t\"loValue\":38\n}\n,\"P04003\":{\n\t\"loValue\":12\n}\n,\"P04004\":{\n\t\"loValue\":76\n}\n,\"P04070\":{\n\t\"loValue\":17\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":24\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":1\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":50\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":9\n}\n,\"P05546\":{\n\t\"loValue\":3\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":16\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":11\n}\n,\"P08709\":{\n\t\"loValue\":2\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":48\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":3\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":7\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":1\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":34\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":12\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":9\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96a18bc9-fa4e-3f5e-87e2-7216b60bd9ce.json b/test/data/enm/study-FCSV-96a18bc9-fa4e-3f5e-87e2-7216b60bd9ce.json
new file mode 100644
index 0000000..81758a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-96a18bc9-fa4e-3f5e-87e2-7216b60bd9ce.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-96a18bc9-fa4e-3f5e-87e2-7216b60bd9ce",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -18.3,
+        "errQualifier": "sd",
+        "errorValue": 1.69
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.57,
+        "errQualifier": "sd",
+        "errorValue": 0.38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96a3906a-6a82-397e-8da6-070b26c9f736.json b/test/data/enm/study-FCSV-96a3906a-6a82-397e-8da6-070b26c9f736.json
new file mode 100644
index 0000000..62f56e8
--- /dev/null
+++ b/test/data/enm/study-FCSV-96a3906a-6a82-397e-8da6-070b26c9f736.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-96a3906a-6a82-397e-8da6-070b26c9f736",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.02,
+        "errQualifier": "sd",
+        "errorValue": 0.55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96c843f5-ebf0-38e0-9b1a-be1053da0c6f.json b/test/data/enm/study-FCSV-96c843f5-ebf0-38e0-9b1a-be1053da0c6f.json
new file mode 100644
index 0000000..67079ef
--- /dev/null
+++ b/test/data/enm/study-FCSV-96c843f5-ebf0-38e0-9b1a-be1053da0c6f.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-96c843f5-ebf0-38e0-9b1a-be1053da0c6f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 456.87,
+        "errQualifier": "sd",
+        "errorValue": 1.993
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.029
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96e69e8a-2d57-36da-a29e-fb25655bee5a.json b/test/data/enm/study-FCSV-96e69e8a-2d57-36da-a29e-fb25655bee5a.json
new file mode 100644
index 0000000..44ca04f
--- /dev/null
+++ b/test/data/enm/study-FCSV-96e69e8a-2d57-36da-a29e-fb25655bee5a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-96e69e8a-2d57-36da-a29e-fb25655bee5a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "4-Mercaptobenzoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-96f2e687-cfda-3ad9-a825-ce963f793662.json b/test/data/enm/study-FCSV-96f2e687-cfda-3ad9-a825-ce963f793662.json
new file mode 100644
index 0000000..3244f71
--- /dev/null
+++ b/test/data/enm/study-FCSV-96f2e687-cfda-3ad9-a825-ce963f793662.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-96f2e687-cfda-3ad9-a825-ce963f793662",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-971af5da-789c-320d-b367-7c9506135746.json b/test/data/enm/study-FCSV-971af5da-789c-320d-b367-7c9506135746.json
new file mode 100644
index 0000000..120d0fd
--- /dev/null
+++ b/test/data/enm/study-FCSV-971af5da-789c-320d-b367-7c9506135746.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-971af5da-789c-320d-b367-7c9506135746",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "16-Mercaptohexadecanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9727c19d-603d-3c07-8643-7bbe7d32bef7.json b/test/data/enm/study-FCSV-9727c19d-603d-3c07-8643-7bbe7d32bef7.json
new file mode 100644
index 0000000..9b6e669
--- /dev/null
+++ b/test/data/enm/study-FCSV-9727c19d-603d-3c07-8643-7bbe7d32bef7.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-9727c19d-603d-3c07-8643-7bbe7d32bef7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.102,
+        "errQualifier": "sd",
+        "errorValue": 1.064
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.103
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97729567-c11c-32d8-b6e8-bf50c8f16bbe.json b/test/data/enm/study-FCSV-97729567-c11c-32d8-b6e8-bf50c8f16bbe.json
new file mode 100644
index 0000000..75f1098
--- /dev/null
+++ b/test/data/enm/study-FCSV-97729567-c11c-32d8-b6e8-bf50c8f16bbe.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-97729567-c11c-32d8-b6e8-bf50c8f16bbe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.015,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.104,
+        "errQualifier": "std",
+        "errorValue": 0.721
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9782038d-dde7-3c0b-afaa-7d10defc063e.json b/test/data/enm/study-FCSV-9782038d-dde7-3c0b-afaa-7d10defc063e.json
new file mode 100644
index 0000000..5d16461
--- /dev/null
+++ b/test/data/enm/study-FCSV-9782038d-dde7-3c0b-afaa-7d10defc063e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9782038d-dde7-3c0b-afaa-7d10defc063e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97a6eb15-9ac4-3d7f-9523-f8c9f864a19a.json b/test/data/enm/study-FCSV-97a6eb15-9ac4-3d7f-9523-f8c9f864a19a.json
new file mode 100644
index 0000000..5cb58ee
--- /dev/null
+++ b/test/data/enm/study-FCSV-97a6eb15-9ac4-3d7f-9523-f8c9f864a19a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-97a6eb15-9ac4-3d7f-9523-f8c9f864a19a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.055,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.055,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97c74545-a8cd-322e-9933-a48c65d3d44b.json b/test/data/enm/study-FCSV-97c74545-a8cd-322e-9933-a48c65d3d44b.json
new file mode 100644
index 0000000..7d15a95
--- /dev/null
+++ b/test/data/enm/study-FCSV-97c74545-a8cd-322e-9933-a48c65d3d44b.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-97c74545-a8cd-322e-9933-a48c65d3d44b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 238.461,
+        "errQualifier": "sd",
+        "errorValue": 12.859
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.066
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97e398ad-3a79-3529-bbc8-55903d7ae5c2.json b/test/data/enm/study-FCSV-97e398ad-3a79-3529-bbc8-55903d7ae5c2.json
new file mode 100644
index 0000000..cdb007c
--- /dev/null
+++ b/test/data/enm/study-FCSV-97e398ad-3a79-3529-bbc8-55903d7ae5c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-97e398ad-3a79-3529-bbc8-55903d7ae5c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.193,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.237,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97e89a69-396c-3ba3-97ab-bb13c9589b1e.json b/test/data/enm/study-FCSV-97e89a69-396c-3ba3-97ab-bb13c9589b1e.json
new file mode 100644
index 0000000..192da43
--- /dev/null
+++ b/test/data/enm/study-FCSV-97e89a69-396c-3ba3-97ab-bb13c9589b1e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-97e89a69-396c-3ba3-97ab-bb13c9589b1e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated amino-poly(ethylene glycol) (3kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-97ff1097-ae45-3090-b6d8-9981900a6662.json b/test/data/enm/study-FCSV-97ff1097-ae45-3090-b6d8-9981900a6662.json
new file mode 100644
index 0000000..636ab44
--- /dev/null
+++ b/test/data/enm/study-FCSV-97ff1097-ae45-3090-b6d8-9981900a6662.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-97ff1097-ae45-3090-b6d8-9981900a6662",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "5,5'-Dithiobis(2-nitrobenzoic acid)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-987b513e-4b32-356d-aa0b-169fae7dfe2f.json b/test/data/enm/study-FCSV-987b513e-4b32-356d-aa0b-169fae7dfe2f.json
new file mode 100644
index 0000000..8148d9e
--- /dev/null
+++ b/test/data/enm/study-FCSV-987b513e-4b32-356d-aa0b-169fae7dfe2f.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-987b513e-4b32-356d-aa0b-169fae7dfe2f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 23.12,
+        "errQualifier": "sd",
+        "errorValue": 0.74
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.62,
+        "errQualifier": "sd",
+        "errorValue": 0.74
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.11,
+        "errQualifier": "sd",
+        "errorValue": 1.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.92,
+        "errQualifier": "sd",
+        "errorValue": 5.92
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.95,
+        "errQualifier": "sd",
+        "errorValue": 1.11
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.34,
+        "errQualifier": "sd",
+        "errorValue": 8.57
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.95,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.82,
+        "errQualifier": "sd",
+        "errorValue": 2.66
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-98d0b3e6-885f-3e34-ae87-07518473ae59.json b/test/data/enm/study-FCSV-98d0b3e6-885f-3e34-ae87-07518473ae59.json
new file mode 100644
index 0000000..c4eaca7
--- /dev/null
+++ b/test/data/enm/study-FCSV-98d0b3e6-885f-3e34-ae87-07518473ae59.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-98d0b3e6-885f-3e34-ae87-07518473ae59",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 926.901,
+        "errQualifier": "sd",
+        "errorValue": 97.629
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-98f6cd25-a9ef-3cb1-aa6b-e036b0a6ec80.json b/test/data/enm/study-FCSV-98f6cd25-a9ef-3cb1-aa6b-e036b0a6ec80.json
new file mode 100644
index 0000000..a5a8837
--- /dev/null
+++ b/test/data/enm/study-FCSV-98f6cd25-a9ef-3cb1-aa6b-e036b0a6ec80.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-98f6cd25-a9ef-3cb1-aa6b-e036b0a6ec80",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -18.46,
+        "errQualifier": "sd",
+        "errorValue": 4.45
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.78,
+        "errQualifier": "sd",
+        "errorValue": 1.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-98ff1d42-288f-3468-b84e-83f6c5910fd9.json b/test/data/enm/study-FCSV-98ff1d42-288f-3468-b84e-83f6c5910fd9.json
new file mode 100644
index 0000000..16e61e4
--- /dev/null
+++ b/test/data/enm/study-FCSV-98ff1d42-288f-3468-b84e-83f6c5910fd9.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-98ff1d42-288f-3468-b84e-83f6c5910fd9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Peptide sequence 'CFGAILS'"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-994df969-c9d9-31e3-b263-2d8352febabd.json b/test/data/enm/study-FCSV-994df969-c9d9-31e3-b263-2d8352febabd.json
new file mode 100644
index 0000000..530295a
--- /dev/null
+++ b/test/data/enm/study-FCSV-994df969-c9d9-31e3-b263-2d8352febabd.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-994df969-c9d9-31e3-b263-2d8352febabd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Bis(p-sulfonatophenyl)phenylphosphine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-99866f7f-bab4-3d6c-a903-f74e5e8b0d9c.json b/test/data/enm/study-FCSV-99866f7f-bab4-3d6c-a903-f74e5e8b0d9c.json
new file mode 100644
index 0000000..a8260e4
--- /dev/null
+++ b/test/data/enm/study-FCSV-99866f7f-bab4-3d6c-a903-f74e5e8b0d9c.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-99866f7f-bab4-3d6c-a903-f74e5e8b0d9c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 605.742,
+        "errQualifier": "sd",
+        "errorValue": 44.532
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.027
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-99884ad6-e3f0-3474-acb6-5af7c2cabf10.json b/test/data/enm/study-FCSV-99884ad6-e3f0-3474-acb6-5af7c2cabf10.json
new file mode 100644
index 0000000..ffa0a31
--- /dev/null
+++ b/test/data/enm/study-FCSV-99884ad6-e3f0-3474-acb6-5af7c2cabf10.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-99884ad6-e3f0-3474-acb6-5af7c2cabf10",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 653.518,
+        "errQualifier": "sd",
+        "errorValue": 46.62
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9a39fe45-5ebd-30dd-adc5-22feb5317c24.json b/test/data/enm/study-FCSV-9a39fe45-5ebd-30dd-adc5-22feb5317c24.json
new file mode 100644
index 0000000..712ac52
--- /dev/null
+++ b/test/data/enm/study-FCSV-9a39fe45-5ebd-30dd-adc5-22feb5317c24.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9a39fe45-5ebd-30dd-adc5-22feb5317c24",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9a70104f-07cc-392f-96cb-f81864180068.json b/test/data/enm/study-FCSV-9a70104f-07cc-392f-96cb-f81864180068.json
new file mode 100644
index 0000000..81bb862
--- /dev/null
+++ b/test/data/enm/study-FCSV-9a70104f-07cc-392f-96cb-f81864180068.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-9a70104f-07cc-392f-96cb-f81864180068",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":153\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":1\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":429\n}\n,\"P01009\":{\n\t\"loValue\":10\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":87\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":28\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":6\n}\n,\"P01857\":{\n\t\"loValue\":4\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":6\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":4\n}\n,\"P02649\":{\n\t\"loValue\":141\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":6\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":11\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":14\n}\n,\"P03951\":{\n\t\"loValue\":3\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":108\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":55\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":13\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":19\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":3\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":3\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":20\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":5\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":4\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":11\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":3\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":1\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":9\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":2\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":1\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":1\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":1\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":12\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":4\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":7\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":2\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":3\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ab4666b-3870-36f4-91d4-b719d5d80dbb.json b/test/data/enm/study-FCSV-9ab4666b-3870-36f4-91d4-b719d5d80dbb.json
new file mode 100644
index 0000000..3353211
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ab4666b-3870-36f4-91d4-b719d5d80dbb.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9ab4666b-3870-36f4-91d4-b719d5d80dbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.211,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.225,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.87,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9af0f1c6-d18b-3efb-a645-60467ea20b86.json b/test/data/enm/study-FCSV-9af0f1c6-d18b-3efb-a645-60467ea20b86.json
new file mode 100644
index 0000000..b0df1a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-9af0f1c6-d18b-3efb-a645-60467ea20b86.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9af0f1c6-d18b-3efb-a645-60467ea20b86",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.218,
+        "errQualifier": "sd",
+        "errorValue": 0.0009158
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.229,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.8,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9af19959-7d0b-3200-b5b9-1d9103a912f5.json b/test/data/enm/study-FCSV-9af19959-7d0b-3200-b5b9-1d9103a912f5.json
new file mode 100644
index 0000000..c15f783
--- /dev/null
+++ b/test/data/enm/study-FCSV-9af19959-7d0b-3200-b5b9-1d9103a912f5.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-9af19959-7d0b-3200-b5b9-1d9103a912f5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.108,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.248,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9afa2281-e7e7-33e7-b234-a4a3ef415b6b.json b/test/data/enm/study-FCSV-9afa2281-e7e7-33e7-b234-a4a3ef415b6b.json
new file mode 100644
index 0000000..5e1e0f6
--- /dev/null
+++ b/test/data/enm/study-FCSV-9afa2281-e7e7-33e7-b234-a4a3ef415b6b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9afa2281-e7e7-33e7-b234-a4a3ef415b6b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b05b1c3-b904-3ed3-9430-f14017c4209a.json b/test/data/enm/study-FCSV-9b05b1c3-b904-3ed3-9430-f14017c4209a.json
new file mode 100644
index 0000000..dc81b31
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b05b1c3-b904-3ed3-9430-f14017c4209a.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9b05b1c3-b904-3ed3-9430-f14017c4209a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.01,
+        "errQualifier": "sd",
+        "errorValue": 4.74
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.26,
+        "errQualifier": "sd",
+        "errorValue": 0.83
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b1c251b-6793-34bb-baad-bebe2441d970.json b/test/data/enm/study-FCSV-9b1c251b-6793-34bb-baad-bebe2441d970.json
new file mode 100644
index 0000000..5d5445e
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b1c251b-6793-34bb-baad-bebe2441d970.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9b1c251b-6793-34bb-baad-bebe2441d970",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0.json b/test/data/enm/study-FCSV-9b205fb1-8e36-340d-add7-bb7e761d99fc.json
index 1eb6aae..1eb6aae 100644
--- a/test/data/enm/study-FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0.json
+++ b/test/data/enm/study-FCSV-9b205fb1-8e36-340d-add7-bb7e761d99fc.json
diff --git a/test/data/enm/study-FCSV-9b21839c-d5fc-3e1d-8b3e-63eb037412f3.json b/test/data/enm/study-FCSV-9b21839c-d5fc-3e1d-8b3e-63eb037412f3.json
new file mode 100644
index 0000000..9e99f73
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b21839c-d5fc-3e1d-8b3e-63eb037412f3.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-9b21839c-d5fc-3e1d-8b3e-63eb037412f3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "ethanolamine-modified poly(styrene-co-maleic anhydride)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b2bb35f-82d3-300a-81f7-7c2a0ac6664c.json b/test/data/enm/study-FCSV-9b2bb35f-82d3-300a-81f7-7c2a0ac6664c.json
new file mode 100644
index 0000000..1899162
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b2bb35f-82d3-300a-81f7-7c2a0ac6664c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9b2bb35f-82d3-300a-81f7-7c2a0ac6664c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Carboxymethyl-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b347aa3-2a75-3295-bcac-c08fa9856727.json b/test/data/enm/study-FCSV-9b347aa3-2a75-3295-bcac-c08fa9856727.json
new file mode 100644
index 0000000..685e1d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b347aa3-2a75-3295-bcac-c08fa9856727.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-9b347aa3-2a75-3295-bcac-c08fa9856727",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 25.22,
+        "errQualifier": "sd",
+        "errorValue": 5.25
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.8,
+        "errQualifier": "sd",
+        "errorValue": 0.76
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.32,
+        "errQualifier": "sd",
+        "errorValue": 1.65
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.99,
+        "errQualifier": "sd",
+        "errorValue": 1.97
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.12,
+        "errQualifier": "sd",
+        "errorValue": 1.47
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.38,
+        "errQualifier": "sd",
+        "errorValue": 2.08
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.12,
+        "errQualifier": "sd",
+        "errorValue": 2.53
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.33,
+        "errQualifier": "sd",
+        "errorValue": 0.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b5e473c-2aea-31ea-beca-d59c2380f974.json b/test/data/enm/study-FCSV-9b5e473c-2aea-31ea-beca-d59c2380f974.json
new file mode 100644
index 0000000..799aff2
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b5e473c-2aea-31ea-beca-d59c2380f974.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9b5e473c-2aea-31ea-beca-d59c2380f974",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b77bb83-76ea-3415-a89f-cb67910da456.json b/test/data/enm/study-FCSV-9b77bb83-76ea-3415-a89f-cb67910da456.json
new file mode 100644
index 0000000..f3c6738
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b77bb83-76ea-3415-a89f-cb67910da456.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-9b77bb83-76ea-3415-a89f-cb67910da456",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.39,
+        "errQualifier": "sd",
+        "errorValue": 0.95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b7cba27-7a42-3118-900d-4b4f9a3801b8.json b/test/data/enm/study-FCSV-9b7cba27-7a42-3118-900d-4b4f9a3801b8.json
new file mode 100644
index 0000000..ea2d4bb
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b7cba27-7a42-3118-900d-4b4f9a3801b8.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9b7cba27-7a42-3118-900d-4b4f9a3801b8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Hexadecyltrimethylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b8131df-0b85-32da-930a-e2c0b0fa2290.json b/test/data/enm/study-FCSV-9b8131df-0b85-32da-930a-e2c0b0fa2290.json
new file mode 100644
index 0000000..e375266
--- /dev/null
+++ b/test/data/enm/study-FCSV-9b8131df-0b85-32da-930a-e2c0b0fa2290.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-9b8131df-0b85-32da-930a-e2c0b0fa2290",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":48\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":0\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":1\n}\n,\"P01008\":{\n\t\"loValue\":11\n}\n,\"P01009\":{\n\t\"loValue\":10\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":65\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":15\n}\n,\"P01857\":{\n\t\"loValue\":12\n}\n,\"P01859\":{\n\t\"loValue\":9\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":11\n}\n,\"P01876\":{\n\t\"loValue\":11\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":77\n}\n,\"P02649\":{\n\t\"loValue\":109\n}\n,\"P02652\":{\n\t\"loValue\":24\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":6\n}\n,\"P02656\":{\n\t\"loValue\":10\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":13\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":4\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":10\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":61\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":4\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":43\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":14\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":18\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":1\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":6\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":3\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":2\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":1\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":1\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":32\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":8\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":4\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":1\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":1\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":3\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":2\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":2\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":2\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":6\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":2\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":1\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":1\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":4\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9c155e7f-e6dd-337a-b4fa-cd535cf300ff.json b/test/data/enm/study-FCSV-9c155e7f-e6dd-337a-b4fa-cd535cf300ff.json
new file mode 100644
index 0000000..e93c1c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-9c155e7f-e6dd-337a-b4fa-cd535cf300ff.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9c155e7f-e6dd-337a-b4fa-cd535cf300ff",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -33.47,
+        "errQualifier": "sd",
+        "errorValue": 1.4
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.63,
+        "errQualifier": "sd",
+        "errorValue": 3.83
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44.json b/test/data/enm/study-FCSV-9c2c9362-120e-3f28-9ac6-f30979197b12.json
index 9c1be61..9c1be61 100644
--- a/test/data/enm/study-FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44.json
+++ b/test/data/enm/study-FCSV-9c2c9362-120e-3f28-9ac6-f30979197b12.json
diff --git a/test/data/enm/study-FCSV-9c51d581-db5d-3878-9a08-d1fa3f67040e.json b/test/data/enm/study-FCSV-9c51d581-db5d-3878-9a08-d1fa3f67040e.json
new file mode 100644
index 0000000..daf3b5c
--- /dev/null
+++ b/test/data/enm/study-FCSV-9c51d581-db5d-3878-9a08-d1fa3f67040e.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9c51d581-db5d-3878-9a08-d1fa3f67040e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -12.31,
+        "errQualifier": "sd",
+        "errorValue": 12.05
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.99,
+        "errQualifier": "sd",
+        "errorValue": 7.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9cc787d5-09ae-373b-b948-eef3684537e8.json b/test/data/enm/study-FCSV-9cc787d5-09ae-373b-b948-eef3684537e8.json
new file mode 100644
index 0000000..b29643e
--- /dev/null
+++ b/test/data/enm/study-FCSV-9cc787d5-09ae-373b-b948-eef3684537e8.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-9cc787d5-09ae-373b-b948-eef3684537e8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 44.18,
+        "errQualifier": "sd",
+        "errorValue": 1.24
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 64.29,
+        "errQualifier": "sd",
+        "errorValue": 8.69
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42.92,
+        "errQualifier": "sd",
+        "errorValue": 1.53
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.88,
+        "errQualifier": "sd",
+        "errorValue": 24.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.12,
+        "errQualifier": "sd",
+        "errorValue": 1.76
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 24.6,
+        "errQualifier": "sd",
+        "errorValue": 14.79
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.12,
+        "errQualifier": "sd",
+        "errorValue": 2.06
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.11,
+        "errQualifier": "sd",
+        "errorValue": 17.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ce7dc8c-aa17-385a-ae5a-dcf1e363b79c.json b/test/data/enm/study-FCSV-9ce7dc8c-aa17-385a-ae5a-dcf1e363b79c.json
new file mode 100644
index 0000000..608f52a
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ce7dc8c-aa17-385a-ae5a-dcf1e363b79c.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9ce7dc8c-aa17-385a-ae5a-dcf1e363b79c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 9.82,
+        "errQualifier": "sd",
+        "errorValue": 2.08
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.23,
+        "errQualifier": "sd",
+        "errorValue": 3.47
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9d042091-bc23-3d3d-a515-a678b42a3978.json b/test/data/enm/study-FCSV-9d042091-bc23-3d3d-a515-a678b42a3978.json
new file mode 100644
index 0000000..41982a3
--- /dev/null
+++ b/test/data/enm/study-FCSV-9d042091-bc23-3d3d-a515-a678b42a3978.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-9d042091-bc23-3d3d-a515-a678b42a3978",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 610.302,
+        "errQualifier": "sd",
+        "errorValue": 20.846
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9d1b33fb-88c4-350b-9529-1612c945509b.json b/test/data/enm/study-FCSV-9d1b33fb-88c4-350b-9529-1612c945509b.json
new file mode 100644
index 0000000..bce5b01
--- /dev/null
+++ b/test/data/enm/study-FCSV-9d1b33fb-88c4-350b-9529-1612c945509b.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9d1b33fb-88c4-350b-9529-1612c945509b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9d458659-cc51-378d-800b-1c427e3d009d.json b/test/data/enm/study-FCSV-9d458659-cc51-378d-800b-1c427e3d009d.json
new file mode 100644
index 0000000..11a729c
--- /dev/null
+++ b/test/data/enm/study-FCSV-9d458659-cc51-378d-800b-1c427e3d009d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9d458659-cc51-378d-800b-1c427e3d009d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-alanine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9dfe9062-80b7-3a10-bb2a-763869bf86cc.json b/test/data/enm/study-FCSV-9dfe9062-80b7-3a10-bb2a-763869bf86cc.json
new file mode 100644
index 0000000..196ec17
--- /dev/null
+++ b/test/data/enm/study-FCSV-9dfe9062-80b7-3a10-bb2a-763869bf86cc.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-9dfe9062-80b7-3a10-bb2a-763869bf86cc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.007,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.072,
+        "errQualifier": "std",
+        "errorValue": 0.765
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9e0b0af8-ae57-34b3-9037-cb235db96390.json b/test/data/enm/study-FCSV-9e0b0af8-ae57-34b3-9037-cb235db96390.json
new file mode 100644
index 0000000..ff20c64
--- /dev/null
+++ b/test/data/enm/study-FCSV-9e0b0af8-ae57-34b3-9037-cb235db96390.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-9e0b0af8-ae57-34b3-9037-cb235db96390",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.4,
+        "errQualifier": "sd",
+        "errorValue": 1.21
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 64.65,
+        "errQualifier": "sd",
+        "errorValue": 28.48
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.16,
+        "errQualifier": "sd",
+        "errorValue": 4.67
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 135.24,
+        "errQualifier": "sd",
+        "errorValue": 145.01
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.53,
+        "errQualifier": "sd",
+        "errorValue": 6.32
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.06,
+        "errQualifier": "sd",
+        "errorValue": 8.59
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.53,
+        "errQualifier": "sd",
+        "errorValue": 4
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79.07,
+        "errQualifier": "sd",
+        "errorValue": 28.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9e3a6851-1887-3001-b2e6-67e9a87d1e34.json b/test/data/enm/study-FCSV-9e3a6851-1887-3001-b2e6-67e9a87d1e34.json
new file mode 100644
index 0000000..1c40fb3
--- /dev/null
+++ b/test/data/enm/study-FCSV-9e3a6851-1887-3001-b2e6-67e9a87d1e34.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-9e3a6851-1887-3001-b2e6-67e9a87d1e34",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.31,
+        "errQualifier": "sd",
+        "errorValue": 0.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9e445914-9cdf-3ae7-a99c-c6a9af8ab275.json b/test/data/enm/study-FCSV-9e445914-9cdf-3ae7-a99c-c6a9af8ab275.json
new file mode 100644
index 0000000..16796b1
--- /dev/null
+++ b/test/data/enm/study-FCSV-9e445914-9cdf-3ae7-a99c-c6a9af8ab275.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-9e445914-9cdf-3ae7-a99c-c6a9af8ab275",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.886,
+        "errQualifier": "sd",
+        "errorValue": 0.635
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9e4a6504-53cb-3ab0-8835-d885c020d5c4.json b/test/data/enm/study-FCSV-9e4a6504-53cb-3ab0-8835-d885c020d5c4.json
new file mode 100644
index 0000000..3a73e4c
--- /dev/null
+++ b/test/data/enm/study-FCSV-9e4a6504-53cb-3ab0-8835-d885c020d5c4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-9e4a6504-53cb-3ab0-8835-d885c020d5c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":64\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":3\n}\n,\"P00747\":{\n\t\"loValue\":14\n}\n,\"P00748\":{\n\t\"loValue\":40\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":99\n}\n,\"P01009\":{\n\t\"loValue\":30\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":44\n}\n,\"P01024\":{\n\t\"loValue\":81\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":327\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":25\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":16\n}\n,\"P01876\":{\n\t\"loValue\":21\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":12\n}\n,\"P02649\":{\n\t\"loValue\":24\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":1\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":3\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":7\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":20\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":13\n}\n,\"P03951\":{\n\t\"loValue\":145\n}\n,\"P03952\":{\n\t\"loValue\":53\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":104\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":6\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":145\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":18\n}\n,\"P05155\":{\n\t\"loValue\":15\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":8\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":2\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":2\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":7\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":24\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":5\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":9\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":3\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":3\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":16\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":4\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":2\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":6\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":7\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":1\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":18\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":41\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":1\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":1\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":38\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":10\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":1\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":5\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":4\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":13\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":1\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ebc84cd-b14b-30e0-9899-5b178440479e.json b/test/data/enm/study-FCSV-9ebc84cd-b14b-30e0-9899-5b178440479e.json
new file mode 100644
index 0000000..95d7034
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ebc84cd-b14b-30e0-9899-5b178440479e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-9ebc84cd-b14b-30e0-9899-5b178440479e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":11\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":3\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":9\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":5\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":12\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":7\n}\n,\"P01008\":{\n\t\"loValue\":41\n}\n,\"P01009\":{\n\t\"loValue\":25\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":28\n}\n,\"P01024\":{\n\t\"loValue\":102\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":8\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":1\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":32\n}\n,\"P01857\":{\n\t\"loValue\":40\n}\n,\"P01859\":{\n\t\"loValue\":21\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":30\n}\n,\"P01876\":{\n\t\"loValue\":19\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":33\n}\n,\"P02649\":{\n\t\"loValue\":13\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":39\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":5\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":5\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":81\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":3\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":3\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":10\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":1\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":22\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":15\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":1\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":2\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":1\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":6\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":8\n}\n,\"P19827\":{\n\t\"loValue\":6\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":2\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":1\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":1\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":1\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":2\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":2\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":10\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ebed2e0-7cac-3373-bd9c-2b56739c480f.json b/test/data/enm/study-FCSV-9ebed2e0-7cac-3373-bd9c-2b56739c480f.json
new file mode 100644
index 0000000..1248809
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ebed2e0-7cac-3373-bd9c-2b56739c480f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9ebed2e0-7cac-3373-bd9c-2b56739c480f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.77,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.355,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 544.1,
+        "errQualifier": "sd",
+        "errorValue": 12.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ee6cb9a-eb47-3238-a1bf-962eb6ccedae.json b/test/data/enm/study-FCSV-9ee6cb9a-eb47-3238-a1bf-962eb6ccedae.json
new file mode 100644
index 0000000..a95098e
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ee6cb9a-eb47-3238-a1bf-962eb6ccedae.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9ee6cb9a-eb47-3238-a1bf-962eb6ccedae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ef1a81f-30c2-3f8b-80ad-77ab1674fad7.json b/test/data/enm/study-FCSV-9ef1a81f-30c2-3f8b-80ad-77ab1674fad7.json
new file mode 100644
index 0000000..375f5b9
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ef1a81f-30c2-3f8b-80ad-77ab1674fad7.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-9ef1a81f-30c2-3f8b-80ad-77ab1674fad7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.238,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.02
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 541.2,
+        "errQualifier": "sd",
+        "errorValue": 1.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9ef9b6b1-9ea4-346b-b1e1-db86dc824988.json b/test/data/enm/study-FCSV-9ef9b6b1-9ea4-346b-b1e1-db86dc824988.json
new file mode 100644
index 0000000..3d28890
--- /dev/null
+++ b/test/data/enm/study-FCSV-9ef9b6b1-9ea4-346b-b1e1-db86dc824988.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9ef9b6b1-9ea4-346b-b1e1-db86dc824988",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -17.95,
+        "errQualifier": "sd",
+        "errorValue": 3.82
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.37,
+        "errQualifier": "sd",
+        "errorValue": 1.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9f0cc80f-3c7f-359a-9c18-4393247fbb26.json b/test/data/enm/study-FCSV-9f0cc80f-3c7f-359a-9c18-4393247fbb26.json
new file mode 100644
index 0000000..8b6ae3c
--- /dev/null
+++ b/test/data/enm/study-FCSV-9f0cc80f-3c7f-359a-9c18-4393247fbb26.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-9f0cc80f-3c7f-359a-9c18-4393247fbb26",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9f18d505-2643-3152-ba6b-b3f6ccf2ad70.json b/test/data/enm/study-FCSV-9f18d505-2643-3152-ba6b-b3f6ccf2ad70.json
new file mode 100644
index 0000000..86d53d2
--- /dev/null
+++ b/test/data/enm/study-FCSV-9f18d505-2643-3152-ba6b-b3f6ccf2ad70.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-9f18d505-2643-3152-ba6b-b3f6ccf2ad70",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Stearic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9f4fa4bf-062a-3a53-ac7b-fbf743a89bae.json b/test/data/enm/study-FCSV-9f4fa4bf-062a-3a53-ac7b-fbf743a89bae.json
new file mode 100644
index 0000000..6869fe9
--- /dev/null
+++ b/test/data/enm/study-FCSV-9f4fa4bf-062a-3a53-ac7b-fbf743a89bae.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9f4fa4bf-062a-3a53-ac7b-fbf743a89bae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 7.35,
+        "errQualifier": "sd",
+        "errorValue": 12.31
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.14,
+        "errQualifier": "sd",
+        "errorValue": 1.59
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9f579199-f67c-31fb-b5b9-15ecb42b60ba.json b/test/data/enm/study-FCSV-9f579199-f67c-31fb-b5b9-15ecb42b60ba.json
new file mode 100644
index 0000000..cb62e90
--- /dev/null
+++ b/test/data/enm/study-FCSV-9f579199-f67c-31fb-b5b9-15ecb42b60ba.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-9f579199-f67c-31fb-b5b9-15ecb42b60ba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9c9a7234-a74f-326f-a134-79e004c1f687"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.34,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9f980962-310b-31cc-b6be-d086001474b8.json b/test/data/enm/study-FCSV-9f980962-310b-31cc-b6be-d086001474b8.json
new file mode 100644
index 0000000..9c5b74b
--- /dev/null
+++ b/test/data/enm/study-FCSV-9f980962-310b-31cc-b6be-d086001474b8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-9f980962-310b-31cc-b6be-d086001474b8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -25.26,
+        "errQualifier": "sd",
+        "errorValue": 3.49
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.5,
+        "errQualifier": "sd",
+        "errorValue": 0.92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9fceec29-b5e8-31d8-9347-dd0900364ad5.json b/test/data/enm/study-FCSV-9fceec29-b5e8-31d8-9347-dd0900364ad5.json
new file mode 100644
index 0000000..a7cc0a5
--- /dev/null
+++ b/test/data/enm/study-FCSV-9fceec29-b5e8-31d8-9347-dd0900364ad5.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-9fceec29-b5e8-31d8-9347-dd0900364ad5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 91.86,
+        "errQualifier": "sd",
+        "errorValue": 22.29
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 122.28,
+        "errQualifier": "sd",
+        "errorValue": 6.78
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.67,
+        "errQualifier": "sd",
+        "errorValue": 27.34
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 495.82,
+        "errQualifier": "sd",
+        "errorValue": 653.28
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 136.68,
+        "errQualifier": "sd",
+        "errorValue": 2.43
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 66.11,
+        "errQualifier": "sd",
+        "errorValue": 28.8
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 136.68,
+        "errQualifier": "sd",
+        "errorValue": 38.41
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 163.85,
+        "errQualifier": "sd",
+        "errorValue": 34.41
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a0467ded-c793-3223-b355-a3dc2d81b271.json b/test/data/enm/study-FCSV-a0467ded-c793-3223-b355-a3dc2d81b271.json
new file mode 100644
index 0000000..9bbb95d
--- /dev/null
+++ b/test/data/enm/study-FCSV-a0467ded-c793-3223-b355-a3dc2d81b271.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a0467ded-c793-3223-b355-a3dc2d81b271",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a090cb6a-1e46-3973-a36a-9f8f18d6ee37.json b/test/data/enm/study-FCSV-a090cb6a-1e46-3973-a36a-9f8f18d6ee37.json
new file mode 100644
index 0000000..6ab0873
--- /dev/null
+++ b/test/data/enm/study-FCSV-a090cb6a-1e46-3973-a36a-9f8f18d6ee37.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-a090cb6a-1e46-3973-a36a-9f8f18d6ee37",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 45.72,
+        "errQualifier": "sd",
+        "errorValue": 0.75
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 44.6,
+        "errQualifier": "sd",
+        "errorValue": 1.54
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.42,
+        "errQualifier": "sd",
+        "errorValue": 0.53
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.94,
+        "errQualifier": "sd",
+        "errorValue": 1.24
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 50.95,
+        "errQualifier": "sd",
+        "errorValue": 1.38
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.77,
+        "errQualifier": "sd",
+        "errorValue": 1.76
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 50.95,
+        "errQualifier": "sd",
+        "errorValue": 2.45
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.96,
+        "errQualifier": "sd",
+        "errorValue": 0.37
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a094c81d-0874-36db-809a-23f015767770.json b/test/data/enm/study-FCSV-a094c81d-0874-36db-809a-23f015767770.json
new file mode 100644
index 0000000..13a9a73
--- /dev/null
+++ b/test/data/enm/study-FCSV-a094c81d-0874-36db-809a-23f015767770.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a094c81d-0874-36db-809a-23f015767770",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.7,
+        "errQualifier": "sd",
+        "errorValue": 0.722
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a100161d-2141-3e86-ae1f-12f07b4e28ba.json b/test/data/enm/study-FCSV-a100161d-2141-3e86-ae1f-12f07b4e28ba.json
new file mode 100644
index 0000000..76d6ce6
--- /dev/null
+++ b/test/data/enm/study-FCSV-a100161d-2141-3e86-ae1f-12f07b4e28ba.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a100161d-2141-3e86-ae1f-12f07b4e28ba",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 830.177,
+        "errQualifier": "sd",
+        "errorValue": 67.762
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.053
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a1283cb8-b393-31d7-a122-17b07ffbe983.json b/test/data/enm/study-FCSV-a1283cb8-b393-31d7-a122-17b07ffbe983.json
new file mode 100644
index 0000000..2066dac
--- /dev/null
+++ b/test/data/enm/study-FCSV-a1283cb8-b393-31d7-a122-17b07ffbe983.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-a1283cb8-b393-31d7-a122-17b07ffbe983",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":10\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":3\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":5\n}\n,\"P00736\":{\n\t\"loValue\":3\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":13\n}\n,\"P01009\":{\n\t\"loValue\":20\n}\n,\"P01011\":{\n\t\"loValue\":1\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":26\n}\n,\"P01024\":{\n\t\"loValue\":78\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":5\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":31\n}\n,\"P01857\":{\n\t\"loValue\":39\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":20\n}\n,\"P01876\":{\n\t\"loValue\":12\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":33\n}\n,\"P02649\":{\n\t\"loValue\":16\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":1\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":5\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":5\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":9\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":13\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":29\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":7\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":1\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":4\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":21\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":6\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":2\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":8\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":1\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":9\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":2\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":4\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":3\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":14\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":5\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a14367e0-3154-3219-a63b-ded8c23594c4.json b/test/data/enm/study-FCSV-a14367e0-3154-3219-a63b-ded8c23594c4.json
new file mode 100644
index 0000000..1f35bdd
--- /dev/null
+++ b/test/data/enm/study-FCSV-a14367e0-3154-3219-a63b-ded8c23594c4.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a14367e0-3154-3219-a63b-ded8c23594c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 658.749,
+        "errQualifier": "sd",
+        "errorValue": 40.708
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a159f6dc-8a3c-309c-ac82-ca7c4b03e8b6.json b/test/data/enm/study-FCSV-a159f6dc-8a3c-309c-ac82-ca7c4b03e8b6.json
new file mode 100644
index 0000000..ebc0275
--- /dev/null
+++ b/test/data/enm/study-FCSV-a159f6dc-8a3c-309c-ac82-ca7c4b03e8b6.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a159f6dc-8a3c-309c-ac82-ca7c4b03e8b6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a1cc54aa-1ed3-3c46-927b-81088d643632.json b/test/data/enm/study-FCSV-a1cc54aa-1ed3-3c46-927b-81088d643632.json
new file mode 100644
index 0000000..cbf5b02
--- /dev/null
+++ b/test/data/enm/study-FCSV-a1cc54aa-1ed3-3c46-927b-81088d643632.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a1cc54aa-1ed3-3c46-927b-81088d643632",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a22a4681-18a0-3476-bc59-d25e5544c60f.json b/test/data/enm/study-FCSV-a22a4681-18a0-3476-bc59-d25e5544c60f.json
new file mode 100644
index 0000000..e9b3050
--- /dev/null
+++ b/test/data/enm/study-FCSV-a22a4681-18a0-3476-bc59-d25e5544c60f.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-a22a4681-18a0-3476-bc59-d25e5544c60f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.82,
+        "errQualifier": "sd",
+        "errorValue": 1.17
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 68.38,
+        "errQualifier": "sd",
+        "errorValue": 2.99
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42.09,
+        "errQualifier": "sd",
+        "errorValue": 1.73
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 66.65,
+        "errQualifier": "sd",
+        "errorValue": 3.42
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.6,
+        "errQualifier": "sd",
+        "errorValue": 2.05
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 63.33,
+        "errQualifier": "sd",
+        "errorValue": 2.96
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.6,
+        "errQualifier": "sd",
+        "errorValue": 1.38
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73.43,
+        "errQualifier": "sd",
+        "errorValue": 1.86
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a27ac896-fa14-3954-9f23-48c0a93b6ac9.json b/test/data/enm/study-FCSV-a27ac896-fa14-3954-9f23-48c0a93b6ac9.json
new file mode 100644
index 0000000..33f9173
--- /dev/null
+++ b/test/data/enm/study-FCSV-a27ac896-fa14-3954-9f23-48c0a93b6ac9.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a27ac896-fa14-3954-9f23-48c0a93b6ac9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.05,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.05,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a29e4fd6-5280-35cb-9835-c7b61cda6cf4.json b/test/data/enm/study-FCSV-a29e4fd6-5280-35cb-9835-c7b61cda6cf4.json
new file mode 100644
index 0000000..8a3801e
--- /dev/null
+++ b/test/data/enm/study-FCSV-a29e4fd6-5280-35cb-9835-c7b61cda6cf4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a29e4fd6-5280-35cb-9835-c7b61cda6cf4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.878,
+        "errQualifier": "sd",
+        "errorValue": 0.998
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a2dec9e7-5ad0-36ae-879d-0ad9a33a90ca.json b/test/data/enm/study-FCSV-a2dec9e7-5ad0-36ae-879d-0ad9a33a90ca.json
new file mode 100644
index 0000000..1c86076
--- /dev/null
+++ b/test/data/enm/study-FCSV-a2dec9e7-5ad0-36ae-879d-0ad9a33a90ca.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a2dec9e7-5ad0-36ae-879d-0ad9a33a90ca",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "N-(2-Mercaptopropionyl)glycine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a2f0be21-6350-3095-89f5-78d47eebd697.json b/test/data/enm/study-FCSV-a2f0be21-6350-3095-89f5-78d47eebd697.json
new file mode 100644
index 0000000..d959123
--- /dev/null
+++ b/test/data/enm/study-FCSV-a2f0be21-6350-3095-89f5-78d47eebd697.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a2f0be21-6350-3095-89f5-78d47eebd697",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.047,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.248,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a38399b2-73ba-3121-8ef2-19adb31090dd.json b/test/data/enm/study-FCSV-a38399b2-73ba-3121-8ef2-19adb31090dd.json
new file mode 100644
index 0000000..800acbe
--- /dev/null
+++ b/test/data/enm/study-FCSV-a38399b2-73ba-3121-8ef2-19adb31090dd.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a38399b2-73ba-3121-8ef2-19adb31090dd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a3ab45ec-c8c4-38a3-b305-e6d950b4796d.json b/test/data/enm/study-FCSV-a3ab45ec-c8c4-38a3-b305-e6d950b4796d.json
new file mode 100644
index 0000000..3a845e8
--- /dev/null
+++ b/test/data/enm/study-FCSV-a3ab45ec-c8c4-38a3-b305-e6d950b4796d.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-a3ab45ec-c8c4-38a3-b305-e6d950b4796d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 19.6,
+        "errQualifier": "sd",
+        "errorValue": 2.4
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.52,
+        "errQualifier": "sd",
+        "errorValue": 1.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a3c15653-f37a-380b-949a-105c7ad1b4c9.json b/test/data/enm/study-FCSV-a3c15653-f37a-380b-949a-105c7ad1b4c9.json
new file mode 100644
index 0000000..b794b88
--- /dev/null
+++ b/test/data/enm/study-FCSV-a3c15653-f37a-380b-949a-105c7ad1b4c9.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a3c15653-f37a-380b-949a-105c7ad1b4c9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.04,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.044,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a3cedaf8-6eed-3420-9c64-a74d106757c9.json b/test/data/enm/study-FCSV-a3cedaf8-6eed-3420-9c64-a74d106757c9.json
new file mode 100644
index 0000000..9eee2b0
--- /dev/null
+++ b/test/data/enm/study-FCSV-a3cedaf8-6eed-3420-9c64-a74d106757c9.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a3cedaf8-6eed-3420-9c64-a74d106757c9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.302,
+        "errQualifier": "sd",
+        "errorValue": 0.781
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4005882-10f8-3b4f-943a-1b341fede94a.json b/test/data/enm/study-FCSV-a4005882-10f8-3b4f-943a-1b341fede94a.json
new file mode 100644
index 0000000..dcbfe74
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4005882-10f8-3b4f-943a-1b341fede94a.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a4005882-10f8-3b4f-943a-1b341fede94a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.4,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 10.5
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 108
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4243298-b647-3aea-a7a9-caaccf4ca60a.json b/test/data/enm/study-FCSV-a4243298-b647-3aea-a7a9-caaccf4ca60a.json
new file mode 100644
index 0000000..6047942
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4243298-b647-3aea-a7a9-caaccf4ca60a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a4243298-b647-3aea-a7a9-caaccf4ca60a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.465,
+        "errQualifier": "sd",
+        "errorValue": 0.018
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.371,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4336b7e-1a31-3596-b140-52f7ed53994a.json b/test/data/enm/study-FCSV-a4336b7e-1a31-3596-b140-52f7ed53994a.json
new file mode 100644
index 0000000..609a538
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4336b7e-1a31-3596-b140-52f7ed53994a.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a4336b7e-1a31-3596-b140-52f7ed53994a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4431f3e-c6c7-32fb-8407-c0e72cba3e4a.json b/test/data/enm/study-FCSV-a4431f3e-c6c7-32fb-8407-c0e72cba3e4a.json
new file mode 100644
index 0000000..f954068
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4431f3e-c6c7-32fb-8407-c0e72cba3e4a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a4431f3e-c6c7-32fb-8407-c0e72cba3e4a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "11-Amino-1-undecanethiol"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4dbbfaa-5c34-3983-8d56-e327c7e4d1fc.json b/test/data/enm/study-FCSV-a4dbbfaa-5c34-3983-8d56-e327c7e4d1fc.json
new file mode 100644
index 0000000..19d4043
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4dbbfaa-5c34-3983-8d56-e327c7e4d1fc.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a4dbbfaa-5c34-3983-8d56-e327c7e4d1fc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4efd232-f947-3b48-9734-b9f036b21630.json b/test/data/enm/study-FCSV-a4efd232-f947-3b48-9734-b9f036b21630.json
new file mode 100644
index 0000000..a16f14e
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4efd232-f947-3b48-9734-b9f036b21630.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-a4efd232-f947-3b48-9734-b9f036b21630",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":1\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":1\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":17\n}\n,\"O43889\":{\n\t\"loValue\":1\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":1\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":2\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":12\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":14\n}\n,\"P00734\":{\n\t\"loValue\":330\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":18\n}\n,\"P00739\":{\n\t\"loValue\":14\n}\n,\"P00740\":{\n\t\"loValue\":99\n}\n,\"P00742\":{\n\t\"loValue\":174\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":10\n}\n,\"P00748\":{\n\t\"loValue\":39\n}\n,\"P00751\":{\n\t\"loValue\":4\n}\n,\"P01008\":{\n\t\"loValue\":200\n}\n,\"P01009\":{\n\t\"loValue\":56\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":45\n}\n,\"P01024\":{\n\t\"loValue\":94\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":71\n}\n,\"P01266\":{\n\t\"loValue\":1\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":5\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":5\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":37\n}\n,\"P01857\":{\n\t\"loValue\":36\n}\n,\"P01859\":{\n\t\"loValue\":10\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":82\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":20\n}\n,\"P02649\":{\n\t\"loValue\":77\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":22\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":21\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":8\n}\n,\"P02747\":{\n\t\"loValue\":4\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":15\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":7\n}\n,\"P02763\":{\n\t\"loValue\":9\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":8\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":38\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":4\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":6\n}\n,\"P03951\":{\n\t\"loValue\":31\n}\n,\"P03952\":{\n\t\"loValue\":7\n}\n,\"P04003\":{\n\t\"loValue\":418\n}\n,\"P04004\":{\n\t\"loValue\":55\n}\n,\"P04070\":{\n\t\"loValue\":57\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":51\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":5\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":2\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":7\n}\n,\"P05155\":{\n\t\"loValue\":20\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":16\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":6\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":8\n}\n,\"P06732\":{\n\t\"loValue\":5\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":187\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":7\n}\n,\"P07996\":{\n\t\"loValue\":3\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":1\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":9\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":8\n}\n,\"P08697\":{\n\t\"loValue\":14\n}\n,\"P08709\":{\n\t\"loValue\":14\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":135\n}\n,\"P0C0L5\":{\n\t\"loValue\":14\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":16\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":9\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":10\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":12\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":4\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":1\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":16\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":39\n}\n,\"P21333\":{\n\t\"loValue\":16\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":56\n}\n,\"P23528\":{\n\t\"loValue\":11\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":1\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":3\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":6\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":1\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":2\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":1\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":1\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":1\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":3\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":1\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":6\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":3\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":18\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":3\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":1\n}\n,\"Q58FG0\":{\n\t\"loValue\":1\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":10\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":2\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":3\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":7\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":1\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":2\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":1\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":4\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":12\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":21\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4fdcb02-bb15-30e0-8b87-792d0b2b86bf.json b/test/data/enm/study-FCSV-a4fdcb02-bb15-30e0-8b87-792d0b2b86bf.json
new file mode 100644
index 0000000..ea3184e
--- /dev/null
+++ b/test/data/enm/study-FCSV-a4fdcb02-bb15-30e0-8b87-792d0b2b86bf.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a4fdcb02-bb15-30e0-8b87-792d0b2b86bf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 7.78,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a5014279-0892-31fc-b1b3-00aeb4591ea2.json b/test/data/enm/study-FCSV-a5014279-0892-31fc-b1b3-00aeb4591ea2.json
new file mode 100644
index 0000000..0c687c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-a5014279-0892-31fc-b1b3-00aeb4591ea2.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-a5014279-0892-31fc-b1b3-00aeb4591ea2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 26.27,
+        "errQualifier": "sd",
+        "errorValue": 0.95
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 29.68,
+        "errQualifier": "sd",
+        "errorValue": 4.28
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.78,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 26.52,
+        "errQualifier": "sd",
+        "errorValue": 0.65
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.82,
+        "errQualifier": "sd",
+        "errorValue": 0.24
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.06,
+        "errQualifier": "sd",
+        "errorValue": 0.92
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.82,
+        "errQualifier": "sd",
+        "errorValue": 2.09
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.06,
+        "errQualifier": "sd",
+        "errorValue": 4.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a531e655-98ec-3e38-9e22-07456321bcaa.json b/test/data/enm/study-FCSV-a531e655-98ec-3e38-9e22-07456321bcaa.json
new file mode 100644
index 0000000..89a8388
--- /dev/null
+++ b/test/data/enm/study-FCSV-a531e655-98ec-3e38-9e22-07456321bcaa.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a531e655-98ec-3e38-9e22-07456321bcaa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a537ec5f-208d-3f9a-b604-7b49c228b181.json b/test/data/enm/study-FCSV-a537ec5f-208d-3f9a-b604-7b49c228b181.json
new file mode 100644
index 0000000..621ba0c
--- /dev/null
+++ b/test/data/enm/study-FCSV-a537ec5f-208d-3f9a-b604-7b49c228b181.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-a537ec5f-208d-3f9a-b604-7b49c228b181",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -28.93,
+        "errQualifier": "sd",
+        "errorValue": 5.73
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.91,
+        "errQualifier": "sd",
+        "errorValue": 2.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a5396268-36b4-3fdb-a408-cf8a31efd357.json b/test/data/enm/study-FCSV-a5396268-36b4-3fdb-a408-cf8a31efd357.json
new file mode 100644
index 0000000..b2dd5aa
--- /dev/null
+++ b/test/data/enm/study-FCSV-a5396268-36b4-3fdb-a408-cf8a31efd357.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a5396268-36b4-3fdb-a408-cf8a31efd357",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-770a2d39-1509-3c93-b28f-1d3e345de450"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.634,
+        "errQualifier": "sd",
+        "errorValue": 5.259
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a551d14c-a9d1-3062-b9c8-53f552675559.json b/test/data/enm/study-FCSV-a551d14c-a9d1-3062-b9c8-53f552675559.json
new file mode 100644
index 0000000..8afd11a
--- /dev/null
+++ b/test/data/enm/study-FCSV-a551d14c-a9d1-3062-b9c8-53f552675559.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a551d14c-a9d1-3062-b9c8-53f552675559",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.017,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.916,
+        "errQualifier": "std",
+        "errorValue": 0.17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a56fa628-7e02-3625-abe3-e754f2b461df.json b/test/data/enm/study-FCSV-a56fa628-7e02-3625-abe3-e754f2b461df.json
new file mode 100644
index 0000000..cc5a35f
--- /dev/null
+++ b/test/data/enm/study-FCSV-a56fa628-7e02-3625-abe3-e754f2b461df.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a56fa628-7e02-3625-abe3-e754f2b461df",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 488.293,
+        "errQualifier": "sd",
+        "errorValue": 69.992
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.042
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a629ce23-75b0-3d50-a53d-f0db8f1347fc.json b/test/data/enm/study-FCSV-a629ce23-75b0-3d50-a53d-f0db8f1347fc.json
new file mode 100644
index 0000000..d46af7a
--- /dev/null
+++ b/test/data/enm/study-FCSV-a629ce23-75b0-3d50-a53d-f0db8f1347fc.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-a629ce23-75b0-3d50-a53d-f0db8f1347fc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "urea-modified poly(styrene co-maleic anhydride)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a62b0c7f-b293-39e7-b190-881f0891e7a7.json b/test/data/enm/study-FCSV-a62b0c7f-b293-39e7-b190-881f0891e7a7.json
new file mode 100644
index 0000000..dcf553c
--- /dev/null
+++ b/test/data/enm/study-FCSV-a62b0c7f-b293-39e7-b190-881f0891e7a7.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-a62b0c7f-b293-39e7-b190-881f0891e7a7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 25.83,
+        "errQualifier": "sd",
+        "errorValue": 4.08
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.46,
+        "errQualifier": "sd",
+        "errorValue": 1.39
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a6402965-8825-357d-8e12-b9044fab864d.json b/test/data/enm/study-FCSV-a6402965-8825-357d-8e12-b9044fab864d.json
new file mode 100644
index 0000000..ee798a9
--- /dev/null
+++ b/test/data/enm/study-FCSV-a6402965-8825-357d-8e12-b9044fab864d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a6402965-8825-357d-8e12-b9044fab864d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.015,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.022,
+        "errQualifier": "std",
+        "errorValue": 0.412
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a6519c2d-d4e3-38c2-bca1-ea988a1b8b64.json b/test/data/enm/study-FCSV-a6519c2d-d4e3-38c2-bca1-ea988a1b8b64.json
new file mode 100644
index 0000000..3e64a14
--- /dev/null
+++ b/test/data/enm/study-FCSV-a6519c2d-d4e3-38c2-bca1-ea988a1b8b64.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-a6519c2d-d4e3-38c2-bca1-ea988a1b8b64",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.498,
+        "errQualifier": "sd",
+        "errorValue": 0.048
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.363,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 553.17,
+        "errQualifier": "sd",
+        "errorValue": 8.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a6b7cb43-d3bd-3335-a8a2-2a437223c310.json b/test/data/enm/study-FCSV-a6b7cb43-d3bd-3335-a8a2-2a437223c310.json
new file mode 100644
index 0000000..c25c484
--- /dev/null
+++ b/test/data/enm/study-FCSV-a6b7cb43-d3bd-3335-a8a2-2a437223c310.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a6b7cb43-d3bd-3335-a8a2-2a437223c310",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.125,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.193,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a6c55b2b-c457-36a2-94d7-dd332e77b754.json b/test/data/enm/study-FCSV-a6c55b2b-c457-36a2-94d7-dd332e77b754.json
new file mode 100644
index 0000000..e3bf663
--- /dev/null
+++ b/test/data/enm/study-FCSV-a6c55b2b-c457-36a2-94d7-dd332e77b754.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-a6c55b2b-c457-36a2-94d7-dd332e77b754",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":0\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":7\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":84\n}\n,\"P01009\":{\n\t\"loValue\":0\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":5\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":2\n}\n,\"P01857\":{\n\t\"loValue\":0\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":0\n}\n,\"P01876\":{\n\t\"loValue\":0\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":0\n}\n,\"P02649\":{\n\t\"loValue\":1\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":6\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":4\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":1\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":2\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":0\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":0\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":1\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a6dd6e78-23df-3ef5-b7bd-dda5d65b7d6c.json b/test/data/enm/study-FCSV-a6dd6e78-23df-3ef5-b7bd-dda5d65b7d6c.json
new file mode 100644
index 0000000..4f1ebb4
--- /dev/null
+++ b/test/data/enm/study-FCSV-a6dd6e78-23df-3ef5-b7bd-dda5d65b7d6c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a6dd6e78-23df-3ef5-b7bd-dda5d65b7d6c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(11-Mercaptoundecyl)tetra(ethylene glycol)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a77d2aa5-afab-3be9-9a31-715dadcecef7.json b/test/data/enm/study-FCSV-a77d2aa5-afab-3be9-9a31-715dadcecef7.json
new file mode 100644
index 0000000..a6129c3
--- /dev/null
+++ b/test/data/enm/study-FCSV-a77d2aa5-afab-3be9-9a31-715dadcecef7.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-a77d2aa5-afab-3be9-9a31-715dadcecef7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 19.11,
+        "errQualifier": "sd",
+        "errorValue": 7.2
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.47,
+        "errQualifier": "sd",
+        "errorValue": 3.18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a78046c2-0eba-3fb2-a37a-65b834e32fa9.json b/test/data/enm/study-FCSV-a78046c2-0eba-3fb2-a37a-65b834e32fa9.json
new file mode 100644
index 0000000..51dc66e
--- /dev/null
+++ b/test/data/enm/study-FCSV-a78046c2-0eba-3fb2-a37a-65b834e32fa9.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a78046c2-0eba-3fb2-a37a-65b834e32fa9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.017,
+        "errQualifier": "sd",
+        "errorValue": 1.215
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a78082d8-e193-3038-8cba-e6649277a2b1.json b/test/data/enm/study-FCSV-a78082d8-e193-3038-8cba-e6649277a2b1.json
new file mode 100644
index 0000000..a03a010
--- /dev/null
+++ b/test/data/enm/study-FCSV-a78082d8-e193-3038-8cba-e6649277a2b1.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a78082d8-e193-3038-8cba-e6649277a2b1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a785cb40-279d-3cbd-b758-43cb3757970e.json b/test/data/enm/study-FCSV-a785cb40-279d-3cbd-b758-43cb3757970e.json
new file mode 100644
index 0000000..5387bb0
--- /dev/null
+++ b/test/data/enm/study-FCSV-a785cb40-279d-3cbd-b758-43cb3757970e.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a785cb40-279d-3cbd-b758-43cb3757970e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a7c6607a-acba-365c-bb5f-d14c26542dc9.json b/test/data/enm/study-FCSV-a7c6607a-acba-365c-bb5f-d14c26542dc9.json
new file mode 100644
index 0000000..21c7939
--- /dev/null
+++ b/test/data/enm/study-FCSV-a7c6607a-acba-365c-bb5f-d14c26542dc9.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-a7c6607a-acba-365c-bb5f-d14c26542dc9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-99734121-3347-3d4e-9bc6-67956450b140"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.209,
+        "errQualifier": "sd",
+        "errorValue": 0.061
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.288,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.33,
+        "errQualifier": "sd",
+        "errorValue": 0.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a7e33cb1-4b0a-3477-b057-ae9ac5fc7e03.json b/test/data/enm/study-FCSV-a7e33cb1-4b0a-3477-b057-ae9ac5fc7e03.json
new file mode 100644
index 0000000..86be432
--- /dev/null
+++ b/test/data/enm/study-FCSV-a7e33cb1-4b0a-3477-b057-ae9ac5fc7e03.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a7e33cb1-4b0a-3477-b057-ae9ac5fc7e03",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.791,
+        "errQualifier": "sd",
+        "errorValue": 0.642
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a7f00478-653b-34ba-bb59-2febd1aaaa9d.json b/test/data/enm/study-FCSV-a7f00478-653b-34ba-bb59-2febd1aaaa9d.json
new file mode 100644
index 0000000..97d18ce
--- /dev/null
+++ b/test/data/enm/study-FCSV-a7f00478-653b-34ba-bb59-2febd1aaaa9d.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-a7f00478-653b-34ba-bb59-2febd1aaaa9d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a855ae96-25bc-3573-bb32-1f5f22ff6d3b.json b/test/data/enm/study-FCSV-a855ae96-25bc-3573-bb32-1f5f22ff6d3b.json
new file mode 100644
index 0000000..758b1f9
--- /dev/null
+++ b/test/data/enm/study-FCSV-a855ae96-25bc-3573-bb32-1f5f22ff6d3b.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-a855ae96-25bc-3573-bb32-1f5f22ff6d3b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.281,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.302,
+        "errQualifier": "sd",
+        "errorValue": 0.043
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.17,
+        "errQualifier": "sd",
+        "errorValue": 0.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a8a82abc-c5f3-37d8-80ae-4cd03d5ae33f.json b/test/data/enm/study-FCSV-a8a82abc-c5f3-37d8-80ae-4cd03d5ae33f.json
new file mode 100644
index 0000000..8712089
--- /dev/null
+++ b/test/data/enm/study-FCSV-a8a82abc-c5f3-37d8-80ae-4cd03d5ae33f.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a8a82abc-c5f3-37d8-80ae-4cd03d5ae33f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 259.044,
+        "errQualifier": "sd",
+        "errorValue": 9.797
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.049
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a8b23568-058a-382d-8126-f0ef820c2960.json b/test/data/enm/study-FCSV-a8b23568-058a-382d-8126-f0ef820c2960.json
new file mode 100644
index 0000000..65f52a4
--- /dev/null
+++ b/test/data/enm/study-FCSV-a8b23568-058a-382d-8126-f0ef820c2960.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a8b23568-058a-382d-8126-f0ef820c2960",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a8c44672-9c98-3c92-aa09-3798e1ef9c32.json b/test/data/enm/study-FCSV-a8c44672-9c98-3c92-aa09-3798e1ef9c32.json
new file mode 100644
index 0000000..93d53c0
--- /dev/null
+++ b/test/data/enm/study-FCSV-a8c44672-9c98-3c92-aa09-3798e1ef9c32.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a8c44672-9c98-3c92-aa09-3798e1ef9c32",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Hexadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a8e58e9b-6aaa-38cd-b4c5-1d133b631548.json b/test/data/enm/study-FCSV-a8e58e9b-6aaa-38cd-b4c5-1d133b631548.json
new file mode 100644
index 0000000..75be0d9
--- /dev/null
+++ b/test/data/enm/study-FCSV-a8e58e9b-6aaa-38cd-b4c5-1d133b631548.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-a8e58e9b-6aaa-38cd-b4c5-1d133b631548",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":13\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":3\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":11\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":3\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":9\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":299\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":19\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":29\n}\n,\"P00742\":{\n\t\"loValue\":91\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":16\n}\n,\"P01009\":{\n\t\"loValue\":57\n}\n,\"P01011\":{\n\t\"loValue\":6\n}\n,\"P01019\":{\n\t\"loValue\":6\n}\n,\"P01023\":{\n\t\"loValue\":49\n}\n,\"P01024\":{\n\t\"loValue\":54\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":6\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":2\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":40\n}\n,\"P01857\":{\n\t\"loValue\":34\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":55\n}\n,\"P01876\":{\n\t\"loValue\":28\n}\n,\"P01877\":{\n\t\"loValue\":4\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":15\n}\n,\"P02649\":{\n\t\"loValue\":1\n}\n,\"P02652\":{\n\t\"loValue\":5\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":31\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":57\n}\n,\"P02763\":{\n\t\"loValue\":7\n}\n,\"P02765\":{\n\t\"loValue\":2\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":9\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":38\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":209\n}\n,\"P04004\":{\n\t\"loValue\":70\n}\n,\"P04070\":{\n\t\"loValue\":57\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":6\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":6\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":2\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":2\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":9\n}\n,\"P05155\":{\n\t\"loValue\":31\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":107\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":35\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":4\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":75\n}\n,\"P08709\":{\n\t\"loValue\":3\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":101\n}\n,\"P0C0L5\":{\n\t\"loValue\":9\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":9\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":6\n}\n,\"P13667\":{\n\t\"loValue\":2\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":2\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":2\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":4\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":131\n}\n,\"P19827\":{\n\t\"loValue\":140\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":12\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":21\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":3\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":3\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":18\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":26\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":1\n}\n,\"P49746\":{\n\t\"loValue\":1\n}\n,\"P49747\":{\n\t\"loValue\":16\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":1\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":86\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":8\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":1\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":1\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":2\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":251\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":1\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":1\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":2\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":4\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":2\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":1\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":8\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":1\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a92ad728-db13-3acf-b227-47a8ff3c12cb.json b/test/data/enm/study-FCSV-a92ad728-db13-3acf-b227-47a8ff3c12cb.json
new file mode 100644
index 0000000..867c585
--- /dev/null
+++ b/test/data/enm/study-FCSV-a92ad728-db13-3acf-b227-47a8ff3c12cb.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-a92ad728-db13-3acf-b227-47a8ff3c12cb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.118,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.132,
+        "errQualifier": "sd",
+        "errorValue": 0.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a970f99e-89a9-3627-9d59-5b63e81c6e81.json b/test/data/enm/study-FCSV-a970f99e-89a9-3627-9d59-5b63e81c6e81.json
new file mode 100644
index 0000000..2abafca
--- /dev/null
+++ b/test/data/enm/study-FCSV-a970f99e-89a9-3627-9d59-5b63e81c6e81.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a970f99e-89a9-3627-9d59-5b63e81c6e81",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Pluronic F-127"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a991fc1c-8d34-327a-be9a-908e45ffb9f8.json b/test/data/enm/study-FCSV-a991fc1c-8d34-327a-be9a-908e45ffb9f8.json
new file mode 100644
index 0000000..02fb558
--- /dev/null
+++ b/test/data/enm/study-FCSV-a991fc1c-8d34-327a-be9a-908e45ffb9f8.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-a991fc1c-8d34-327a-be9a-908e45ffb9f8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.4,
+        "errQualifier": "sd",
+        "errorValue": 1.085
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a9c33c94-9433-3c98-8239-ddf4aad3643f.json b/test/data/enm/study-FCSV-a9c33c94-9433-3c98-8239-ddf4aad3643f.json
new file mode 100644
index 0000000..4487fb0
--- /dev/null
+++ b/test/data/enm/study-FCSV-a9c33c94-9433-3c98-8239-ddf4aad3643f.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-a9c33c94-9433-3c98-8239-ddf4aad3643f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "octadecylamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a9d1fd9d-7074-30f5-b00c-fd649414610d.json b/test/data/enm/study-FCSV-a9d1fd9d-7074-30f5-b00c-fd649414610d.json
new file mode 100644
index 0000000..01f4c82
--- /dev/null
+++ b/test/data/enm/study-FCSV-a9d1fd9d-7074-30f5-b00c-fd649414610d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-a9d1fd9d-7074-30f5-b00c-fd649414610d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 222.046,
+        "errQualifier": "sd",
+        "errorValue": 45.351
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a9f46914-3528-3bfc-a1c6-b3dfa9dffd5f.json b/test/data/enm/study-FCSV-a9f46914-3528-3bfc-a1c6-b3dfa9dffd5f.json
new file mode 100644
index 0000000..a24f053
--- /dev/null
+++ b/test/data/enm/study-FCSV-a9f46914-3528-3bfc-a1c6-b3dfa9dffd5f.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-a9f46914-3528-3bfc-a1c6-b3dfa9dffd5f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "6-Amino-1-hexanethiol"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aa48e72a-4943-3833-b652-a790a0e4f02f.json b/test/data/enm/study-FCSV-aa48e72a-4943-3833-b652-a790a0e4f02f.json
new file mode 100644
index 0000000..beec953
--- /dev/null
+++ b/test/data/enm/study-FCSV-aa48e72a-4943-3833-b652-a790a0e4f02f.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-aa48e72a-4943-3833-b652-a790a0e4f02f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aa59baee-5462-38a6-a1d9-177b69aaddfe.json b/test/data/enm/study-FCSV-aa59baee-5462-38a6-a1d9-177b69aaddfe.json
new file mode 100644
index 0000000..b61a7c9
--- /dev/null
+++ b/test/data/enm/study-FCSV-aa59baee-5462-38a6-a1d9-177b69aaddfe.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-aa59baee-5462-38a6-a1d9-177b69aaddfe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.052,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.263,
+        "errQualifier": "std",
+        "errorValue": 0.765
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aa6e6486-9157-367d-8d97-2730f71df9b7.json b/test/data/enm/study-FCSV-aa6e6486-9157-367d-8d97-2730f71df9b7.json
new file mode 100644
index 0000000..61b5a59
--- /dev/null
+++ b/test/data/enm/study-FCSV-aa6e6486-9157-367d-8d97-2730f71df9b7.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-aa6e6486-9157-367d-8d97-2730f71df9b7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 274.936,
+        "errQualifier": "sd",
+        "errorValue": 38.596
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 2
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.053
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aa729c74-fb60-3f61-a8b5-0dbd719c50e1.json b/test/data/enm/study-FCSV-aa729c74-fb60-3f61-a8b5-0dbd719c50e1.json
new file mode 100644
index 0000000..082e85e
--- /dev/null
+++ b/test/data/enm/study-FCSV-aa729c74-fb60-3f61-a8b5-0dbd719c50e1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-aa729c74-fb60-3f61-a8b5-0dbd719c50e1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.233,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.167,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aab0d788-2996-39b3-8e2e-0378bcfaf320.json b/test/data/enm/study-FCSV-aab0d788-2996-39b3-8e2e-0378bcfaf320.json
new file mode 100644
index 0000000..415c0f3
--- /dev/null
+++ b/test/data/enm/study-FCSV-aab0d788-2996-39b3-8e2e-0378bcfaf320.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-aab0d788-2996-39b3-8e2e-0378bcfaf320",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":39\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":2\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":1\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":73\n}\n,\"P00736\":{\n\t\"loValue\":7\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":4\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":3\n}\n,\"P00747\":{\n\t\"loValue\":23\n}\n,\"P00748\":{\n\t\"loValue\":15\n}\n,\"P00751\":{\n\t\"loValue\":33\n}\n,\"P01008\":{\n\t\"loValue\":94\n}\n,\"P01009\":{\n\t\"loValue\":21\n}\n,\"P01011\":{\n\t\"loValue\":15\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":35\n}\n,\"P01024\":{\n\t\"loValue\":261\n}\n,\"P01031\":{\n\t\"loValue\":1\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":143\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":4\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":63\n}\n,\"P01857\":{\n\t\"loValue\":106\n}\n,\"P01859\":{\n\t\"loValue\":33\n}\n,\"P01860\":{\n\t\"loValue\":16\n}\n,\"P01861\":{\n\t\"loValue\":12\n}\n,\"P01871\":{\n\t\"loValue\":15\n}\n,\"P01876\":{\n\t\"loValue\":44\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":1\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":63\n}\n,\"P02649\":{\n\t\"loValue\":38\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":12\n}\n,\"P02655\":{\n\t\"loValue\":3\n}\n,\"P02656\":{\n\t\"loValue\":24\n}\n,\"P02671\":{\n\t\"loValue\":10\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":11\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":3\n}\n,\"P02745\":{\n\t\"loValue\":1\n}\n,\"P02746\":{\n\t\"loValue\":2\n}\n,\"P02747\":{\n\t\"loValue\":3\n}\n,\"P02748\":{\n\t\"loValue\":6\n}\n,\"P02749\":{\n\t\"loValue\":104\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":3\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":36\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":25\n}\n,\"P02775\":{\n\t\"loValue\":4\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":82\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":34\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":52\n}\n,\"P03952\":{\n\t\"loValue\":48\n}\n,\"P04003\":{\n\t\"loValue\":40\n}\n,\"P04004\":{\n\t\"loValue\":57\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":45\n}\n,\"P04180\":{\n\t\"loValue\":2\n}\n,\"P04196\":{\n\t\"loValue\":41\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":43\n}\n,\"P05155\":{\n\t\"loValue\":15\n}\n,\"P05156\":{\n\t\"loValue\":10\n}\n,\"P05452\":{\n\t\"loValue\":18\n}\n,\"P05546\":{\n\t\"loValue\":11\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":55\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":2\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":31\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":127\n}\n,\"P08697\":{\n\t\"loValue\":13\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":6\n}\n,\"P0C0L4\":{\n\t\"loValue\":142\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":9\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":33\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":3\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":4\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":1\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":13\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":18\n}\n,\"P19827\":{\n\t\"loValue\":8\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":6\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":11\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":2\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":5\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":20\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":1\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":2\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":2\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":5\n}\n,\"Q14624\":{\n\t\"loValue\":182\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":2\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":1\n}\n,\"Q3LXA3\":{\n\t\"loValue\":1\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":2\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":1\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":52\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":1\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":3\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aafdefc3-26bf-3153-80f6-97cd2d42938e.json b/test/data/enm/study-FCSV-aafdefc3-26bf-3153-80f6-97cd2d42938e.json
new file mode 100644
index 0000000..9738729
--- /dev/null
+++ b/test/data/enm/study-FCSV-aafdefc3-26bf-3153-80f6-97cd2d42938e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-aafdefc3-26bf-3153-80f6-97cd2d42938e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.113,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.129,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ab20662a-6678-3f65-bdd2-dbfa99536590.json b/test/data/enm/study-FCSV-ab20662a-6678-3f65-bdd2-dbfa99536590.json
new file mode 100644
index 0000000..bd355d7
--- /dev/null
+++ b/test/data/enm/study-FCSV-ab20662a-6678-3f65-bdd2-dbfa99536590.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ab20662a-6678-3f65-bdd2-dbfa99536590",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.128,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.125,
+        "errQualifier": "sd",
+        "errorValue": 0.02
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ab307f0b-73df-3ce4-8ba7-92a64c53a907.json b/test/data/enm/study-FCSV-ab307f0b-73df-3ce4-8ba7-92a64c53a907.json
new file mode 100644
index 0000000..68c9acd
--- /dev/null
+++ b/test/data/enm/study-FCSV-ab307f0b-73df-3ce4-8ba7-92a64c53a907.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-ab307f0b-73df-3ce4-8ba7-92a64c53a907",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 28.09,
+        "errQualifier": "sd",
+        "errorValue": 1.13
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 51.18,
+        "errQualifier": "sd",
+        "errorValue": 25.2
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.56,
+        "errQualifier": "sd",
+        "errorValue": 1.25
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.77,
+        "errQualifier": "sd",
+        "errorValue": 3.9
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.55,
+        "errQualifier": "sd",
+        "errorValue": 1.66
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.5,
+        "errQualifier": "sd",
+        "errorValue": 4.9
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.55,
+        "errQualifier": "sd",
+        "errorValue": 0.74
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.08,
+        "errQualifier": "sd",
+        "errorValue": 2.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ab77fa85-c3f3-338e-94ae-d7eefd4faeb0.json b/test/data/enm/study-FCSV-ab77fa85-c3f3-338e-94ae-d7eefd4faeb0.json
new file mode 100644
index 0000000..748940e
--- /dev/null
+++ b/test/data/enm/study-FCSV-ab77fa85-c3f3-338e-94ae-d7eefd4faeb0.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ab77fa85-c3f3-338e-94ae-d7eefd4faeb0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated poly(L-lysine)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-abc10ee8-47a8-3ff4-ae6c-f2e59057b91c.json b/test/data/enm/study-FCSV-abc10ee8-47a8-3ff4-ae6c-f2e59057b91c.json
new file mode 100644
index 0000000..147708f
--- /dev/null
+++ b/test/data/enm/study-FCSV-abc10ee8-47a8-3ff4-ae6c-f2e59057b91c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-abc10ee8-47a8-3ff4-ae6c-f2e59057b91c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-abc74a96-cca2-37c5-a408-96e10b93202f.json b/test/data/enm/study-FCSV-abc74a96-cca2-37c5-a408-96e10b93202f.json
new file mode 100644
index 0000000..3dc865f
--- /dev/null
+++ b/test/data/enm/study-FCSV-abc74a96-cca2-37c5-a408-96e10b93202f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-abc74a96-cca2-37c5-a408-96e10b93202f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":6\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":13\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":2\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":1\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":4\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":3\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":53\n}\n,\"P00736\":{\n\t\"loValue\":8\n}\n,\"P00738\":{\n\t\"loValue\":6\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":1\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":5\n}\n,\"P00748\":{\n\t\"loValue\":2\n}\n,\"P00751\":{\n\t\"loValue\":9\n}\n,\"P01008\":{\n\t\"loValue\":95\n}\n,\"P01009\":{\n\t\"loValue\":53\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":16\n}\n,\"P01024\":{\n\t\"loValue\":131\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":72\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":28\n}\n,\"P01857\":{\n\t\"loValue\":30\n}\n,\"P01859\":{\n\t\"loValue\":5\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":13\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":1\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":68\n}\n,\"P02649\":{\n\t\"loValue\":22\n}\n,\"P02652\":{\n\t\"loValue\":15\n}\n,\"P02654\":{\n\t\"loValue\":6\n}\n,\"P02655\":{\n\t\"loValue\":3\n}\n,\"P02656\":{\n\t\"loValue\":14\n}\n,\"P02671\":{\n\t\"loValue\":7\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":1\n}\n,\"P02748\":{\n\t\"loValue\":6\n}\n,\"P02749\":{\n\t\"loValue\":29\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":1\n}\n,\"P02760\":{\n\t\"loValue\":4\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":25\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":17\n}\n,\"P02775\":{\n\t\"loValue\":2\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":19\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":14\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":10\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":52\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":66\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":17\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":3\n}\n,\"P04220\":{\n\t\"loValue\":6\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":15\n}\n,\"P05155\":{\n\t\"loValue\":2\n}\n,\"P05156\":{\n\t\"loValue\":2\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":5\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":22\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":35\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":1\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":30\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":3\n}\n,\"P0C0L4\":{\n\t\"loValue\":106\n}\n,\"P0C0L5\":{\n\t\"loValue\":5\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":8\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":1\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":15\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":1\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":2\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":8\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":2\n}\n,\"P19823\":{\n\t\"loValue\":22\n}\n,\"P19827\":{\n\t\"loValue\":16\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":1\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":3\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":1\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":2\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":4\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":1\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":3\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":3\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":1\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":8\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":5\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":2\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":3\n}\n,\"Q14624\":{\n\t\"loValue\":36\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":2\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":1\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":1\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":38\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":4\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":1\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":2\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":1\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ac398b7b-bfe6-3319-b504-012ac7fa628c.json b/test/data/enm/study-FCSV-ac398b7b-bfe6-3319-b504-012ac7fa628c.json
new file mode 100644
index 0000000..c4b890b
--- /dev/null
+++ b/test/data/enm/study-FCSV-ac398b7b-bfe6-3319-b504-012ac7fa628c.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-ac398b7b-bfe6-3319-b504-012ac7fa628c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -3.07,
+        "errQualifier": "sd",
+        "errorValue": 1.08
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.35,
+        "errQualifier": "sd",
+        "errorValue": 0.79
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ac3afa8a-3eca-37e3-af26-aef0da0128eb.json b/test/data/enm/study-FCSV-ac3afa8a-3eca-37e3-af26-aef0da0128eb.json
new file mode 100644
index 0000000..7e09f4d
--- /dev/null
+++ b/test/data/enm/study-FCSV-ac3afa8a-3eca-37e3-af26-aef0da0128eb.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ac3afa8a-3eca-37e3-af26-aef0da0128eb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.321,
+        "errQualifier": "sd",
+        "errorValue": 0.176
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ac501399-cde9-31ca-a953-64dfd0aa806b.json b/test/data/enm/study-FCSV-ac501399-cde9-31ca-a953-64dfd0aa806b.json
new file mode 100644
index 0000000..d01cde0
--- /dev/null
+++ b/test/data/enm/study-FCSV-ac501399-cde9-31ca-a953-64dfd0aa806b.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-ac501399-cde9-31ca-a953-64dfd0aa806b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -29.37,
+        "errQualifier": "sd",
+        "errorValue": 4.37
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.1,
+        "errQualifier": "sd",
+        "errorValue": 1.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ac8a0107-00ba-3bb3-826f-7650a69d32de.json b/test/data/enm/study-FCSV-ac8a0107-00ba-3bb3-826f-7650a69d32de.json
new file mode 100644
index 0000000..0529981
--- /dev/null
+++ b/test/data/enm/study-FCSV-ac8a0107-00ba-3bb3-826f-7650a69d32de.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ac8a0107-00ba-3bb3-826f-7650a69d32de",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aca5f78f-39ea-32cc-8777-669518f65b53.json b/test/data/enm/study-FCSV-aca5f78f-39ea-32cc-8777-669518f65b53.json
new file mode 100644
index 0000000..cd26acb
--- /dev/null
+++ b/test/data/enm/study-FCSV-aca5f78f-39ea-32cc-8777-669518f65b53.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-aca5f78f-39ea-32cc-8777-669518f65b53",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.084,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.083,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-acfe6a88-6bba-3636-8639-d1bbbb289fdd.json b/test/data/enm/study-FCSV-acfe6a88-6bba-3636-8639-d1bbbb289fdd.json
new file mode 100644
index 0000000..c77db3b
--- /dev/null
+++ b/test/data/enm/study-FCSV-acfe6a88-6bba-3636-8639-d1bbbb289fdd.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-acfe6a88-6bba-3636-8639-d1bbbb289fdd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.523,
+        "errQualifier": "sd",
+        "errorValue": 0.619
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ad5e2f76-4589-3507-a075-85e128069008.json b/test/data/enm/study-FCSV-ad5e2f76-4589-3507-a075-85e128069008.json
new file mode 100644
index 0000000..c29a951
--- /dev/null
+++ b/test/data/enm/study-FCSV-ad5e2f76-4589-3507-a075-85e128069008.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-ad5e2f76-4589-3507-a075-85e128069008",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 460.851,
+        "errQualifier": "sd",
+        "errorValue": 23.324
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715.json b/test/data/enm/study-FCSV-ad924b58-77ed-3680-be4b-bbb5d740cfd5.json
index 62e92bd..62e92bd 100644
--- a/test/data/enm/study-FCSV-8f5e6fcb-23b9-3222-aa6e-4afcbba47715.json
+++ b/test/data/enm/study-FCSV-ad924b58-77ed-3680-be4b-bbb5d740cfd5.json
diff --git a/test/data/enm/study-FCSV-ad9e0fc1-61c5-3a32-b924-f272f9a0db83.json b/test/data/enm/study-FCSV-ad9e0fc1-61c5-3a32-b924-f272f9a0db83.json
new file mode 100644
index 0000000..fd3b52b
--- /dev/null
+++ b/test/data/enm/study-FCSV-ad9e0fc1-61c5-3a32-b924-f272f9a0db83.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-ad9e0fc1-61c5-3a32-b924-f272f9a0db83",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-add752a5-b79b-3f78-9b34-ff0bd004ef32.json b/test/data/enm/study-FCSV-add752a5-b79b-3f78-9b34-ff0bd004ef32.json
new file mode 100644
index 0000000..f5c2a0a
--- /dev/null
+++ b/test/data/enm/study-FCSV-add752a5-b79b-3f78-9b34-ff0bd004ef32.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-add752a5-b79b-3f78-9b34-ff0bd004ef32",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.256,
+        "errQualifier": "sd",
+        "errorValue": 0.075
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.424,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.03,
+        "errQualifier": "sd",
+        "errorValue": 0.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-adf77f30-ee23-39c9-a5b8-aa48762ba537.json b/test/data/enm/study-FCSV-adf77f30-ee23-39c9-a5b8-aa48762ba537.json
new file mode 100644
index 0000000..17695ed
--- /dev/null
+++ b/test/data/enm/study-FCSV-adf77f30-ee23-39c9-a5b8-aa48762ba537.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-adf77f30-ee23-39c9-a5b8-aa48762ba537",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Peptide sequence 'CALNN'"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ae224991-49f6-35d0-b874-d485fed70bf8.json b/test/data/enm/study-FCSV-ae224991-49f6-35d0-b874-d485fed70bf8.json
new file mode 100644
index 0000000..b72461f
--- /dev/null
+++ b/test/data/enm/study-FCSV-ae224991-49f6-35d0-b874-d485fed70bf8.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ae224991-49f6-35d0-b874-d485fed70bf8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ae3bb801-ed8c-386c-97bb-002708caded5.json b/test/data/enm/study-FCSV-ae3bb801-ed8c-386c-97bb-002708caded5.json
new file mode 100644
index 0000000..32985f7
--- /dev/null
+++ b/test/data/enm/study-FCSV-ae3bb801-ed8c-386c-97bb-002708caded5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-ae3bb801-ed8c-386c-97bb-002708caded5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":253\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":209\n}\n,\"P01009\":{\n\t\"loValue\":0\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":4\n}\n,\"P01024\":{\n\t\"loValue\":121\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":195\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":3\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":7\n}\n,\"P01771\":{\n\t\"loValue\":1\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":12\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":1\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":63\n}\n,\"P02649\":{\n\t\"loValue\":546\n}\n,\"P02652\":{\n\t\"loValue\":15\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":7\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":9\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":4\n}\n,\"P03951\":{\n\t\"loValue\":168\n}\n,\"P03952\":{\n\t\"loValue\":8\n}\n,\"P04003\":{\n\t\"loValue\":10\n}\n,\"P04004\":{\n\t\"loValue\":312\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":191\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":28\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":21\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":8\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":5\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":17\n}\n,\"P08697\":{\n\t\"loValue\":1\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":40\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":15\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":12\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":6\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":1\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":36\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":5\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":21\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":8\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":23\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":26\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":1\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":19\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":1\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ae8dd949-973b-399e-9e34-372bccff6fec.json b/test/data/enm/study-FCSV-ae8dd949-973b-399e-9e34-372bccff6fec.json
new file mode 100644
index 0000000..4c1cf42
--- /dev/null
+++ b/test/data/enm/study-FCSV-ae8dd949-973b-399e-9e34-372bccff6fec.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ae8dd949-973b-399e-9e34-372bccff6fec",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-aef9fcc3-43d5-3b20-8894-96ac92ccada7.json b/test/data/enm/study-FCSV-aef9fcc3-43d5-3b20-8894-96ac92ccada7.json
new file mode 100644
index 0000000..6383c75
--- /dev/null
+++ b/test/data/enm/study-FCSV-aef9fcc3-43d5-3b20-8894-96ac92ccada7.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-aef9fcc3-43d5-3b20-8894-96ac92ccada7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.188,
+        "errQualifier": "sd",
+        "errorValue": 0.053
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.299,
+        "errQualifier": "sd",
+        "errorValue": 0.067
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-af1b9c25-dcf3-36de-ba20-06627f218d84.json b/test/data/enm/study-FCSV-af1b9c25-dcf3-36de-ba20-06627f218d84.json
new file mode 100644
index 0000000..0bb595c
--- /dev/null
+++ b/test/data/enm/study-FCSV-af1b9c25-dcf3-36de-ba20-06627f218d84.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-af1b9c25-dcf3-36de-ba20-06627f218d84",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.049,
+        "errQualifier": "sd",
+        "errorValue": 0.229
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-af200471-3083-3ad7-8454-65c0bf67b288.json b/test/data/enm/study-FCSV-af200471-3083-3ad7-8454-65c0bf67b288.json
new file mode 100644
index 0000000..2e5cc55
--- /dev/null
+++ b/test/data/enm/study-FCSV-af200471-3083-3ad7-8454-65c0bf67b288.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-af200471-3083-3ad7-8454-65c0bf67b288",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-af6e6d70-3193-3a44-90ba-aa3597d7d108.json b/test/data/enm/study-FCSV-af6e6d70-3193-3a44-90ba-aa3597d7d108.json
new file mode 100644
index 0000000..0188a53
--- /dev/null
+++ b/test/data/enm/study-FCSV-af6e6d70-3193-3a44-90ba-aa3597d7d108.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-af6e6d70-3193-3a44-90ba-aa3597d7d108",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 250.959,
+        "errQualifier": "sd",
+        "errorValue": 13.232
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.073
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b00fbaf0-34bd-3b31-a619-aed633393790.json b/test/data/enm/study-FCSV-b00fbaf0-34bd-3b31-a619-aed633393790.json
new file mode 100644
index 0000000..ae99dd0
--- /dev/null
+++ b/test/data/enm/study-FCSV-b00fbaf0-34bd-3b31-a619-aed633393790.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b00fbaf0-34bd-3b31-a619-aed633393790",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 447.135,
+        "errQualifier": "sd",
+        "errorValue": 3.927
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.021
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b059c1b2-84de-346d-b624-a19fe8f101f4.json b/test/data/enm/study-FCSV-b059c1b2-84de-346d-b624-a19fe8f101f4.json
new file mode 100644
index 0000000..5f95021
--- /dev/null
+++ b/test/data/enm/study-FCSV-b059c1b2-84de-346d-b624-a19fe8f101f4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b059c1b2-84de-346d-b624-a19fe8f101f4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":38\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":1\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":1\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":81\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":20\n}\n,\"P01024\":{\n\t\"loValue\":87\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":179\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":19\n}\n,\"P01857\":{\n\t\"loValue\":14\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":7\n}\n,\"P01876\":{\n\t\"loValue\":9\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":19\n}\n,\"P02649\":{\n\t\"loValue\":43\n}\n,\"P02652\":{\n\t\"loValue\":11\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":2\n}\n,\"P02671\":{\n\t\"loValue\":6\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":3\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":5\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":8\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":15\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":6\n}\n,\"P03951\":{\n\t\"loValue\":134\n}\n,\"P03952\":{\n\t\"loValue\":24\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":88\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":8\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":61\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":3\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":17\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":3\n}\n,\"P05546\":{\n\t\"loValue\":6\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":20\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":1\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":20\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":59\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":3\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":2\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":20\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":6\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":1\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":4\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":7\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":19\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":1\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":83\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":5\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":1\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":30\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":2\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":2\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":2\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b0afd1e5-85f9-394f-8016-53bbdd53fa49.json b/test/data/enm/study-FCSV-b0afd1e5-85f9-394f-8016-53bbdd53fa49.json
new file mode 100644
index 0000000..d1e5abe
--- /dev/null
+++ b/test/data/enm/study-FCSV-b0afd1e5-85f9-394f-8016-53bbdd53fa49.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b0afd1e5-85f9-394f-8016-53bbdd53fa49",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.053,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.237,
+        "errQualifier": "std",
+        "errorValue": 1.091
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b0b70427-aa36-37e5-abb1-7a66f034a3e0.json b/test/data/enm/study-FCSV-b0b70427-aa36-37e5-abb1-7a66f034a3e0.json
new file mode 100644
index 0000000..147b1e8
--- /dev/null
+++ b/test/data/enm/study-FCSV-b0b70427-aa36-37e5-abb1-7a66f034a3e0.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b0b70427-aa36-37e5-abb1-7a66f034a3e0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.85,
+        "errQualifier": "sd",
+        "errorValue": 3.08
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -1.73,
+        "errQualifier": "sd",
+        "errorValue": 0.38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b0e05090-e05d-339c-a288-b5d8f16c727d.json b/test/data/enm/study-FCSV-b0e05090-e05d-339c-a288-b5d8f16c727d.json
new file mode 100644
index 0000000..8c85cc2
--- /dev/null
+++ b/test/data/enm/study-FCSV-b0e05090-e05d-339c-a288-b5d8f16c727d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b0e05090-e05d-339c-a288-b5d8f16c727d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.927,
+        "errQualifier": "sd",
+        "errorValue": 0.465
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b11368d1-c347-329d-8bf6-70377759f84d.json b/test/data/enm/study-FCSV-b11368d1-c347-329d-8bf6-70377759f84d.json
new file mode 100644
index 0000000..1cc862e
--- /dev/null
+++ b/test/data/enm/study-FCSV-b11368d1-c347-329d-8bf6-70377759f84d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b11368d1-c347-329d-8bf6-70377759f84d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 591.262,
+        "errQualifier": "sd",
+        "errorValue": 32.807
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.039
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b11380bd-265e-3e9e-a23d-3589dddec7da.json b/test/data/enm/study-FCSV-b11380bd-265e-3e9e-a23d-3589dddec7da.json
new file mode 100644
index 0000000..5c20454
--- /dev/null
+++ b/test/data/enm/study-FCSV-b11380bd-265e-3e9e-a23d-3589dddec7da.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b11380bd-265e-3e9e-a23d-3589dddec7da",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.025,
+        "errQualifier": "sd",
+        "errorValue": 0.792
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b1205cbd-e174-302b-9cb4-36c1d8ac75ec.json b/test/data/enm/study-FCSV-b1205cbd-e174-302b-9cb4-36c1d8ac75ec.json
new file mode 100644
index 0000000..d559fe8
--- /dev/null
+++ b/test/data/enm/study-FCSV-b1205cbd-e174-302b-9cb4-36c1d8ac75ec.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b1205cbd-e174-302b-9cb4-36c1d8ac75ec",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 480.862,
+        "errQualifier": "sd",
+        "errorValue": 28.08
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.067
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b14b3c67-1eda-330b-bf9f-20c5e720acb0.json b/test/data/enm/study-FCSV-b14b3c67-1eda-330b-bf9f-20c5e720acb0.json
new file mode 100644
index 0000000..84ccb31
--- /dev/null
+++ b/test/data/enm/study-FCSV-b14b3c67-1eda-330b-bf9f-20c5e720acb0.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b14b3c67-1eda-330b-bf9f-20c5e720acb0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 243.954,
+        "errQualifier": "sd",
+        "errorValue": 10.743
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.018
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b15b4370-a854-3565-a84d-53b17c5e513c.json b/test/data/enm/study-FCSV-b15b4370-a854-3565-a84d-53b17c5e513c.json
new file mode 100644
index 0000000..cd3060f
--- /dev/null
+++ b/test/data/enm/study-FCSV-b15b4370-a854-3565-a84d-53b17c5e513c.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b15b4370-a854-3565-a84d-53b17c5e513c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 22.63,
+        "errQualifier": "sd",
+        "errorValue": 5.68
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.31,
+        "errQualifier": "sd",
+        "errorValue": 1.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b1a38c8d-0410-3983-8446-913659ada18a.json b/test/data/enm/study-FCSV-b1a38c8d-0410-3983-8446-913659ada18a.json
new file mode 100644
index 0000000..d1d95d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-b1a38c8d-0410-3983-8446-913659ada18a.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b1a38c8d-0410-3983-8446-913659ada18a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 888.198,
+        "errQualifier": "sd",
+        "errorValue": 125.967
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.077
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b21399f1-4b1d-398d-8312-0c76da24b328.json b/test/data/enm/study-FCSV-b21399f1-4b1d-398d-8312-0c76da24b328.json
new file mode 100644
index 0000000..265a22c
--- /dev/null
+++ b/test/data/enm/study-FCSV-b21399f1-4b1d-398d-8312-0c76da24b328.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-b21399f1-4b1d-398d-8312-0c76da24b328",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 462.138,
+        "errQualifier": "sd",
+        "errorValue": 6.828
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b23c13e0-7af7-32a9-aa14-c2780c8a1d21.json b/test/data/enm/study-FCSV-b23c13e0-7af7-32a9-aa14-c2780c8a1d21.json
new file mode 100644
index 0000000..181c925
--- /dev/null
+++ b/test/data/enm/study-FCSV-b23c13e0-7af7-32a9-aa14-c2780c8a1d21.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b23c13e0-7af7-32a9-aa14-c2780c8a1d21",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-threonine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b26c5d41-1ba0-3e03-873e-7c634e382973.json b/test/data/enm/study-FCSV-b26c5d41-1ba0-3e03-873e-7c634e382973.json
new file mode 100644
index 0000000..a3a373e
--- /dev/null
+++ b/test/data/enm/study-FCSV-b26c5d41-1ba0-3e03-873e-7c634e382973.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b26c5d41-1ba0-3e03-873e-7c634e382973",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.102,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.291,
+        "errQualifier": "std",
+        "errorValue": 0.13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b26eb174-9fba-360e-846a-9f06dd656982.json b/test/data/enm/study-FCSV-b26eb174-9fba-360e-846a-9f06dd656982.json
new file mode 100644
index 0000000..7b82f79
--- /dev/null
+++ b/test/data/enm/study-FCSV-b26eb174-9fba-360e-846a-9f06dd656982.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b26eb174-9fba-360e-846a-9f06dd656982",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -22.2,
+        "errQualifier": "sd",
+        "errorValue": 4.69
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.2,
+        "errQualifier": "sd",
+        "errorValue": 1.75
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b28a6e14-bca0-320a-b228-cf2ba3b25061.json b/test/data/enm/study-FCSV-b28a6e14-bca0-320a-b228-cf2ba3b25061.json
new file mode 100644
index 0000000..0af9b18
--- /dev/null
+++ b/test/data/enm/study-FCSV-b28a6e14-bca0-320a-b228-cf2ba3b25061.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b28a6e14-bca0-320a-b228-cf2ba3b25061",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":2\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":2\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":4\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":181\n}\n,\"P00736\":{\n\t\"loValue\":6\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":1\n}\n,\"P00740\":{\n\t\"loValue\":46\n}\n,\"P00742\":{\n\t\"loValue\":83\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":1\n}\n,\"P01008\":{\n\t\"loValue\":84\n}\n,\"P01009\":{\n\t\"loValue\":61\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":13\n}\n,\"P01024\":{\n\t\"loValue\":109\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":46\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":26\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":2\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":55\n}\n,\"P02649\":{\n\t\"loValue\":37\n}\n,\"P02652\":{\n\t\"loValue\":3\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":4\n}\n,\"P02656\":{\n\t\"loValue\":22\n}\n,\"P02671\":{\n\t\"loValue\":22\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":7\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":5\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":3\n}\n,\"P02760\":{\n\t\"loValue\":8\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":16\n}\n,\"P02766\":{\n\t\"loValue\":43\n}\n,\"P02774\":{\n\t\"loValue\":8\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":3\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":6\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":62\n}\n,\"P04004\":{\n\t\"loValue\":116\n}\n,\"P04070\":{\n\t\"loValue\":39\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":36\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":1\n}\n,\"P05155\":{\n\t\"loValue\":2\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":23\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":40\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":51\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":1\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":9\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":29\n}\n,\"P08697\":{\n\t\"loValue\":23\n}\n,\"P08709\":{\n\t\"loValue\":9\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":3\n}\n,\"P0C0L4\":{\n\t\"loValue\":62\n}\n,\"P0C0L5\":{\n\t\"loValue\":10\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":9\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":1\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":1\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":20\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":20\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":2\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":1\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":5\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":56\n}\n,\"P19827\":{\n\t\"loValue\":25\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":3\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":2\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":23\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":1\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":1\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":5\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":7\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":8\n}\n,\"Q14624\":{\n\t\"loValue\":19\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":1\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":1\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":8\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":7\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":3\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b2ac8863-ce4e-325c-85ea-d53529010256.json b/test/data/enm/study-FCSV-b2ac8863-ce4e-325c-85ea-d53529010256.json
new file mode 100644
index 0000000..c5528a8
--- /dev/null
+++ b/test/data/enm/study-FCSV-b2ac8863-ce4e-325c-85ea-d53529010256.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b2ac8863-ce4e-325c-85ea-d53529010256",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -36.08,
+        "errQualifier": "sd",
+        "errorValue": 4.92
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -11.58,
+        "errQualifier": "sd",
+        "errorValue": 2.66
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b34adcc6-64c8-31a3-adb5-c7bad51a0f11.json b/test/data/enm/study-FCSV-b34adcc6-64c8-31a3-adb5-c7bad51a0f11.json
new file mode 100644
index 0000000..2ddc36c
--- /dev/null
+++ b/test/data/enm/study-FCSV-b34adcc6-64c8-31a3-adb5-c7bad51a0f11.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-b34adcc6-64c8-31a3-adb5-c7bad51a0f11",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 38.77,
+        "errQualifier": "sd",
+        "errorValue": 0.29
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 61.91,
+        "errQualifier": "sd",
+        "errorValue": 1.61
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.59,
+        "errQualifier": "sd",
+        "errorValue": 9.64
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 24.51,
+        "errQualifier": "sd",
+        "errorValue": 5.55
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.01,
+        "errQualifier": "sd",
+        "errorValue": 10.98
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.74,
+        "errQualifier": "sd",
+        "errorValue": 3.98
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.01,
+        "errQualifier": "sd",
+        "errorValue": 1.82
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 72.2,
+        "errQualifier": "sd",
+        "errorValue": 1.77
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b3782a0c-efb1-3fc8-a2ca-3b8e302f1498.json b/test/data/enm/study-FCSV-b3782a0c-efb1-3fc8-a2ca-3b8e302f1498.json
new file mode 100644
index 0000000..ca8e4da
--- /dev/null
+++ b/test/data/enm/study-FCSV-b3782a0c-efb1-3fc8-a2ca-3b8e302f1498.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b3782a0c-efb1-3fc8-a2ca-3b8e302f1498",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.201,
+        "errQualifier": "sd",
+        "errorValue": 0.053
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.214,
+        "errQualifier": "sd",
+        "errorValue": 0.034
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b3a1d0d3-b215-30f4-abc9-4447faac08f9.json b/test/data/enm/study-FCSV-b3a1d0d3-b215-30f4-abc9-4447faac08f9.json
new file mode 100644
index 0000000..e103afd
--- /dev/null
+++ b/test/data/enm/study-FCSV-b3a1d0d3-b215-30f4-abc9-4447faac08f9.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b3a1d0d3-b215-30f4-abc9-4447faac08f9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.236,
+        "errQualifier": "sd",
+        "errorValue": 0.071
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.302,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.71,
+        "errQualifier": "sd",
+        "errorValue": 0.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b3bf9410-d0c1-364b-a77e-502b9f2f593a.json b/test/data/enm/study-FCSV-b3bf9410-d0c1-364b-a77e-502b9f2f593a.json
new file mode 100644
index 0000000..55e1cfa
--- /dev/null
+++ b/test/data/enm/study-FCSV-b3bf9410-d0c1-364b-a77e-502b9f2f593a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b3bf9410-d0c1-364b-a77e-502b9f2f593a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":2\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":4\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":162\n}\n,\"P00736\":{\n\t\"loValue\":20\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":5\n}\n,\"P00748\":{\n\t\"loValue\":22\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":270\n}\n,\"P01009\":{\n\t\"loValue\":11\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":18\n}\n,\"P01024\":{\n\t\"loValue\":182\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":47\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":1\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":28\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":10\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":45\n}\n,\"P01876\":{\n\t\"loValue\":17\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":14\n}\n,\"P02649\":{\n\t\"loValue\":231\n}\n,\"P02652\":{\n\t\"loValue\":12\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":88\n}\n,\"P02745\":{\n\t\"loValue\":11\n}\n,\"P02746\":{\n\t\"loValue\":18\n}\n,\"P02747\":{\n\t\"loValue\":14\n}\n,\"P02748\":{\n\t\"loValue\":15\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":11\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":23\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":10\n}\n,\"P03951\":{\n\t\"loValue\":31\n}\n,\"P03952\":{\n\t\"loValue\":2\n}\n,\"P04003\":{\n\t\"loValue\":41\n}\n,\"P04004\":{\n\t\"loValue\":120\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":60\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":115\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":5\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":23\n}\n,\"P05155\":{\n\t\"loValue\":11\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":15\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":24\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":3\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":97\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":1\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":56\n}\n,\"P08697\":{\n\t\"loValue\":4\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":18\n}\n,\"P0C0L4\":{\n\t\"loValue\":61\n}\n,\"P0C0L5\":{\n\t\"loValue\":7\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":23\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":6\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":3\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":1\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":2\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":1\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":4\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":1\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":22\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":3\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":2\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":4\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":53\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":6\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":1\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":4\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":26\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":2\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":1\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":12\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b3e9b8ae-0930-3d79-8981-7a506fda1b2d.json b/test/data/enm/study-FCSV-b3e9b8ae-0930-3d79-8981-7a506fda1b2d.json
new file mode 100644
index 0000000..05fd3fa
--- /dev/null
+++ b/test/data/enm/study-FCSV-b3e9b8ae-0930-3d79-8981-7a506fda1b2d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b3e9b8ae-0930-3d79-8981-7a506fda1b2d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b41b3b01-af83-3ab4-b2a3-4e9382d471ee.json b/test/data/enm/study-FCSV-b41b3b01-af83-3ab4-b2a3-4e9382d471ee.json
new file mode 100644
index 0000000..c177d50
--- /dev/null
+++ b/test/data/enm/study-FCSV-b41b3b01-af83-3ab4-b2a3-4e9382d471ee.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b41b3b01-af83-3ab4-b2a3-4e9382d471ee",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "16-Mercaptohexadecanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b42a0404-db17-366c-bbff-e33ebe52af85.json b/test/data/enm/study-FCSV-b42a0404-db17-366c-bbff-e33ebe52af85.json
new file mode 100644
index 0000000..8fb517c
--- /dev/null
+++ b/test/data/enm/study-FCSV-b42a0404-db17-366c-bbff-e33ebe52af85.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-b42a0404-db17-366c-bbff-e33ebe52af85",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b42b9514-9693-3b87-b40e-6920a55ffb8e.json b/test/data/enm/study-FCSV-b42b9514-9693-3b87-b40e-6920a55ffb8e.json
new file mode 100644
index 0000000..83a2dd9
--- /dev/null
+++ b/test/data/enm/study-FCSV-b42b9514-9693-3b87-b40e-6920a55ffb8e.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b42b9514-9693-3b87-b40e-6920a55ffb8e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.78,
+        "errQualifier": "sd",
+        "errorValue": 6.81
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.11,
+        "errQualifier": "sd",
+        "errorValue": 1.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b431d8f6-660b-35bd-aafe-ee1cdcb1d2ec.json b/test/data/enm/study-FCSV-b431d8f6-660b-35bd-aafe-ee1cdcb1d2ec.json
new file mode 100644
index 0000000..f9afd6e
--- /dev/null
+++ b/test/data/enm/study-FCSV-b431d8f6-660b-35bd-aafe-ee1cdcb1d2ec.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b431d8f6-660b-35bd-aafe-ee1cdcb1d2ec",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.115,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.093,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b43890ff-2d4b-3829-af43-c13222108b22.json b/test/data/enm/study-FCSV-b43890ff-2d4b-3829-af43-c13222108b22.json
new file mode 100644
index 0000000..0a051fa
--- /dev/null
+++ b/test/data/enm/study-FCSV-b43890ff-2d4b-3829-af43-c13222108b22.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b43890ff-2d4b-3829-af43-c13222108b22",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.372,
+        "errQualifier": "sd",
+        "errorValue": 0.238
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d.json b/test/data/enm/study-FCSV-b4898c62-ec8c-35dc-9ae5-16151428b75b.json
index c7f9dd6..c7f9dd6 100644
--- a/test/data/enm/study-FCSV-f0cbcba3-1cb5-3fa5-82cc-bfd9d1afa21d.json
+++ b/test/data/enm/study-FCSV-b4898c62-ec8c-35dc-9ae5-16151428b75b.json
diff --git a/test/data/enm/study-FCSV-b4ac4c18-224e-385d-b332-fd0235f25d40.json b/test/data/enm/study-FCSV-b4ac4c18-224e-385d-b332-fd0235f25d40.json
new file mode 100644
index 0000000..aaacdef
--- /dev/null
+++ b/test/data/enm/study-FCSV-b4ac4c18-224e-385d-b332-fd0235f25d40.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b4ac4c18-224e-385d-b332-fd0235f25d40",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b4da9958-a1b9-3bc1-bdac-5ecd8cae5fae.json b/test/data/enm/study-FCSV-b4da9958-a1b9-3bc1-bdac-5ecd8cae5fae.json
new file mode 100644
index 0000000..193ca93
--- /dev/null
+++ b/test/data/enm/study-FCSV-b4da9958-a1b9-3bc1-bdac-5ecd8cae5fae.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b4da9958-a1b9-3bc1-bdac-5ecd8cae5fae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.069,
+        "errQualifier": "sd",
+        "errorValue": 0.923
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b4e069ae-eb33-3da9-b01b-b20accf1cae3.json b/test/data/enm/study-FCSV-b4e069ae-eb33-3da9-b01b-b20accf1cae3.json
new file mode 100644
index 0000000..1c63939
--- /dev/null
+++ b/test/data/enm/study-FCSV-b4e069ae-eb33-3da9-b01b-b20accf1cae3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b4e069ae-eb33-3da9-b01b-b20accf1cae3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.086,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.087,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59.json b/test/data/enm/study-FCSV-b5183d27-2e45-37c9-984a-f7f9347979e8.json
index f828334..f828334 100644
--- a/test/data/enm/study-FCSV-8e1a76df-a12d-3254-ae6b-28e20153ef59.json
+++ b/test/data/enm/study-FCSV-b5183d27-2e45-37c9-984a-f7f9347979e8.json
diff --git a/test/data/enm/study-FCSV-b52283ea-c3af-3428-9fb3-6c277d796ee4.json b/test/data/enm/study-FCSV-b52283ea-c3af-3428-9fb3-6c277d796ee4.json
new file mode 100644
index 0000000..ebb6abb
--- /dev/null
+++ b/test/data/enm/study-FCSV-b52283ea-c3af-3428-9fb3-6c277d796ee4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b52283ea-c3af-3428-9fb3-6c277d796ee4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.389,
+        "errQualifier": "sd",
+        "errorValue": 0.655
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b55edfef-60af-3fb3-bd03-babc2b7c5917.json b/test/data/enm/study-FCSV-b55edfef-60af-3fb3-bd03-babc2b7c5917.json
new file mode 100644
index 0000000..eaeaaec
--- /dev/null
+++ b/test/data/enm/study-FCSV-b55edfef-60af-3fb3-bd03-babc2b7c5917.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b55edfef-60af-3fb3-bd03-babc2b7c5917",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07629748-9b8e-381b-a4e6-79b495404e02"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":1\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":1\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":22\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":1\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":1\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":70\n}\n,\"P00736\":{\n\t\"loValue\":2\n}\n,\"P00738\":{\n\t\"loValue\":12\n}\n,\"P00739\":{\n\t\"loValue\":10\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":9\n}\n,\"P00747\":{\n\t\"loValue\":15\n}\n,\"P00748\":{\n\t\"loValue\":29\n}\n,\"P00751\":{\n\t\"loValue\":8\n}\n,\"P01008\":{\n\t\"loValue\":161\n}\n,\"P01009\":{\n\t\"loValue\":30\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":43\n}\n,\"P01024\":{\n\t\"loValue\":133\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":333\n}\n,\"P01266\":{\n\t\"loValue\":1\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":1\n}\n,\"P01596\":{\n\t\"loValue\":2\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":6\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":2\n}\n,\"P01700\":{\n\t\"loValue\":1\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":3\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":59\n}\n,\"P01857\":{\n\t\"loValue\":117\n}\n,\"P01859\":{\n\t\"loValue\":30\n}\n,\"P01860\":{\n\t\"loValue\":16\n}\n,\"P01861\":{\n\t\"loValue\":6\n}\n,\"P01871\":{\n\t\"loValue\":19\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":11\n}\n,\"P02649\":{\n\t\"loValue\":31\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":10\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":17\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":6\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":5\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":5\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":39\n}\n,\"P02788\":{\n\t\"loValue\":8\n}\n,\"P02790\":{\n\t\"loValue\":13\n}\n,\"P03303\":{\n\t\"loValue\":2\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":7\n}\n,\"P03951\":{\n\t\"loValue\":83\n}\n,\"P03952\":{\n\t\"loValue\":69\n}\n,\"P04003\":{\n\t\"loValue\":21\n}\n,\"P04004\":{\n\t\"loValue\":120\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":226\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":7\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":3\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":27\n}\n,\"P05155\":{\n\t\"loValue\":34\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":6\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":1\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":59\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":4\n}\n,\"P06733\":{\n\t\"loValue\":1\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":2\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":1\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":41\n}\n,\"P08697\":{\n\t\"loValue\":13\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":68\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":1\n}\n,\"P0C7N1\":{\n\t\"loValue\":1\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":1\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":7\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":9\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":5\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":23\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":2\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":12\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":14\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":3\n}\n,\"P19827\":{\n\t\"loValue\":4\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":6\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":6\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":5\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":1\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":11\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":3\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":3\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":8\n}\n,\"P69905\":{\n\t\"loValue\":3\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":3\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":1\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":2\n}\n,\"Q03591\":{\n\t\"loValue\":10\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":6\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":1\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":5\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":50\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":2\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":5\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":1\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":1\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":1\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":4\n}\n,\"Q92925\":{\n\t\"loValue\":2\n}\n,\"Q92954\":{\n\t\"loValue\":27\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":2\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":1\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":2\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":1\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":8\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b55f70a2-7dc5-3a10-878f-58333168fb65.json b/test/data/enm/study-FCSV-b55f70a2-7dc5-3a10-878f-58333168fb65.json
new file mode 100644
index 0000000..74356e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-b55f70a2-7dc5-3a10-878f-58333168fb65.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b55f70a2-7dc5-3a10-878f-58333168fb65",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -30.57,
+        "errQualifier": "sd",
+        "errorValue": 5.04
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.6,
+        "errQualifier": "sd",
+        "errorValue": 1.88
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b5e692d7-4feb-39fb-9293-907e970372c1.json b/test/data/enm/study-FCSV-b5e692d7-4feb-39fb-9293-907e970372c1.json
new file mode 100644
index 0000000..f34ef2c
--- /dev/null
+++ b/test/data/enm/study-FCSV-b5e692d7-4feb-39fb-9293-907e970372c1.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-b5e692d7-4feb-39fb-9293-907e970372c1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 34.16,
+        "errQualifier": "sd",
+        "errorValue": 0.33
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 34.77,
+        "errQualifier": "sd",
+        "errorValue": 0.9
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.69,
+        "errQualifier": "sd",
+        "errorValue": 0.64
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34.82,
+        "errQualifier": "sd",
+        "errorValue": 0.93
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.95,
+        "errQualifier": "sd",
+        "errorValue": 0.85
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.84,
+        "errQualifier": "sd",
+        "errorValue": 0.46
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36.95,
+        "errQualifier": "sd",
+        "errorValue": 0.35
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.28,
+        "errQualifier": "sd",
+        "errorValue": 3.46
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b6184b85-cd3c-33b7-80f2-f2e0d5c8fdbe.json b/test/data/enm/study-FCSV-b6184b85-cd3c-33b7-80f2-f2e0d5c8fdbe.json
new file mode 100644
index 0000000..281f117
--- /dev/null
+++ b/test/data/enm/study-FCSV-b6184b85-cd3c-33b7-80f2-f2e0d5c8fdbe.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b6184b85-cd3c-33b7-80f2-f2e0d5c8fdbe",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.35,
+        "errQualifier": "sd",
+        "errorValue": 1.64
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.04,
+        "errQualifier": "sd",
+        "errorValue": 4.42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b63a3c77-2f63-3667-8c53-43e25ba6c569.json b/test/data/enm/study-FCSV-b63a3c77-2f63-3667-8c53-43e25ba6c569.json
new file mode 100644
index 0000000..3033ce0
--- /dev/null
+++ b/test/data/enm/study-FCSV-b63a3c77-2f63-3667-8c53-43e25ba6c569.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b63a3c77-2f63-3667-8c53-43e25ba6c569",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b7044b47-e2b6-3404-bc23-099c9fc31031.json b/test/data/enm/study-FCSV-b7044b47-e2b6-3404-bc23-099c9fc31031.json
new file mode 100644
index 0000000..3205d31
--- /dev/null
+++ b/test/data/enm/study-FCSV-b7044b47-e2b6-3404-bc23-099c9fc31031.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-b7044b47-e2b6-3404-bc23-099c9fc31031",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -27.52,
+        "errQualifier": "sd",
+        "errorValue": 3.9
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.96,
+        "errQualifier": "sd",
+        "errorValue": 4.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b713f1f2-6c54-34aa-bcbc-47aa676fba07.json b/test/data/enm/study-FCSV-b713f1f2-6c54-34aa-bcbc-47aa676fba07.json
new file mode 100644
index 0000000..993291b
--- /dev/null
+++ b/test/data/enm/study-FCSV-b713f1f2-6c54-34aa-bcbc-47aa676fba07.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b713f1f2-6c54-34aa-bcbc-47aa676fba07",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.18,
+        "errQualifier": "sd",
+        "errorValue": 0.24
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b77da7ac-1e06-392f-9c4f-1f8a145e4a2f.json b/test/data/enm/study-FCSV-b77da7ac-1e06-392f-9c4f-1f8a145e4a2f.json
new file mode 100644
index 0000000..1a91da3
--- /dev/null
+++ b/test/data/enm/study-FCSV-b77da7ac-1e06-392f-9c4f-1f8a145e4a2f.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-b77da7ac-1e06-392f-9c4f-1f8a145e4a2f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b7a71128-a7b0-3ee2-b7d9-ee26d4b08c0a.json b/test/data/enm/study-FCSV-b7a71128-a7b0-3ee2-b7d9-ee26d4b08c0a.json
new file mode 100644
index 0000000..d45afd8
--- /dev/null
+++ b/test/data/enm/study-FCSV-b7a71128-a7b0-3ee2-b7d9-ee26d4b08c0a.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-b7a71128-a7b0-3ee2-b7d9-ee26d4b08c0a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b8187d95-4992-3ef0-a3b3-e058e34332be.json b/test/data/enm/study-FCSV-b8187d95-4992-3ef0-a3b3-e058e34332be.json
new file mode 100644
index 0000000..15c8c51
--- /dev/null
+++ b/test/data/enm/study-FCSV-b8187d95-4992-3ef0-a3b3-e058e34332be.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b8187d95-4992-3ef0-a3b3-e058e34332be",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c975883b-640e-38a6-aabe-7596e3abcd95"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.301,
+        "errQualifier": "sd",
+        "errorValue": 0.141
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.184,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b823a135-1a2e-3009-a40c-b8710fa1204b.json b/test/data/enm/study-FCSV-b823a135-1a2e-3009-a40c-b8710fa1204b.json
new file mode 100644
index 0000000..6ca5876
--- /dev/null
+++ b/test/data/enm/study-FCSV-b823a135-1a2e-3009-a40c-b8710fa1204b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b823a135-1a2e-3009-a40c-b8710fa1204b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d677545a-5079-3793-8990-4061a6b254c5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.142,
+        "errQualifier": "sd",
+        "errorValue": 0.125
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b84e82b8-3116-3508-9e62-90171b5aadab.json b/test/data/enm/study-FCSV-b84e82b8-3116-3508-9e62-90171b5aadab.json
new file mode 100644
index 0000000..18a2908
--- /dev/null
+++ b/test/data/enm/study-FCSV-b84e82b8-3116-3508-9e62-90171b5aadab.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-b84e82b8-3116-3508-9e62-90171b5aadab",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 39.44,
+        "errQualifier": "sd",
+        "errorValue": 1.04
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 55.07,
+        "errQualifier": "sd",
+        "errorValue": 6.42
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.03,
+        "errQualifier": "sd",
+        "errorValue": 4.58
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.34,
+        "errQualifier": "sd",
+        "errorValue": 1.62
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.08,
+        "errQualifier": "sd",
+        "errorValue": 4.51
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 16.36,
+        "errQualifier": "sd",
+        "errorValue": 1.15
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.08,
+        "errQualifier": "sd",
+        "errorValue": 1.84
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68,
+        "errQualifier": "sd",
+        "errorValue": 6.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b89d5374-27cc-32f1-bd41-ea6a74f89357.json b/test/data/enm/study-FCSV-b89d5374-27cc-32f1-bd41-ea6a74f89357.json
new file mode 100644
index 0000000..03d4a38
--- /dev/null
+++ b/test/data/enm/study-FCSV-b89d5374-27cc-32f1-bd41-ea6a74f89357.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-b89d5374-27cc-32f1-bd41-ea6a74f89357",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 6.209,
+        "errQualifier": "sd",
+        "errorValue": 3.044
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867.json b/test/data/enm/study-FCSV-b8e8601b-61cb-38b6-87c3-0f8b257c4b01.json
index a4d4e78..a4d4e78 100644
--- a/test/data/enm/study-FCSV-bdd4c371-ffec-34f1-ae5b-2c60d243e867.json
+++ b/test/data/enm/study-FCSV-b8e8601b-61cb-38b6-87c3-0f8b257c4b01.json
diff --git a/test/data/enm/study-FCSV-b914df95-e3c8-3bcc-aee1-f8b55f200f7d.json b/test/data/enm/study-FCSV-b914df95-e3c8-3bcc-aee1-f8b55f200f7d.json
new file mode 100644
index 0000000..0dcb4ea
--- /dev/null
+++ b/test/data/enm/study-FCSV-b914df95-e3c8-3bcc-aee1-f8b55f200f7d.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b914df95-e3c8-3bcc-aee1-f8b55f200f7d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.303,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 517.7,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b93096ce-a550-3127-9d82-e0bed12a4032.json b/test/data/enm/study-FCSV-b93096ce-a550-3127-9d82-e0bed12a4032.json
new file mode 100644
index 0000000..9aa1f98
--- /dev/null
+++ b/test/data/enm/study-FCSV-b93096ce-a550-3127-9d82-e0bed12a4032.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-b93096ce-a550-3127-9d82-e0bed12a4032",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b945de3d-ffc6-3eda-ba70-11031bad3792.json b/test/data/enm/study-FCSV-b945de3d-ffc6-3eda-ba70-11031bad3792.json
new file mode 100644
index 0000000..03d4acc
--- /dev/null
+++ b/test/data/enm/study-FCSV-b945de3d-ffc6-3eda-ba70-11031bad3792.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b945de3d-ffc6-3eda-ba70-11031bad3792",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":1\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":8\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":7\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":2\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":1\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":694\n}\n,\"P00736\":{\n\t\"loValue\":1\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":134\n}\n,\"P00742\":{\n\t\"loValue\":217\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":124\n}\n,\"P01009\":{\n\t\"loValue\":44\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":12\n}\n,\"P01024\":{\n\t\"loValue\":57\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":42\n}\n,\"P01857\":{\n\t\"loValue\":41\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":48\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":21\n}\n,\"P02649\":{\n\t\"loValue\":5\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":7\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":13\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":2\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":12\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":335\n}\n,\"P04004\":{\n\t\"loValue\":57\n}\n,\"P04070\":{\n\t\"loValue\":64\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":56\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":5\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":15\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":1\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":1\n}\n,\"P06421\":{\n\t\"loValue\":2\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":3\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":180\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":4\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":2\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":7\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":26\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":145\n}\n,\"P0C0L5\":{\n\t\"loValue\":20\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":14\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":1\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":14\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":7\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":4\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":14\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":21\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":36\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":1\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":3\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":8\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":2\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":3\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":13\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":2\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":3\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":1\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":5\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":1\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":1\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":3\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":9\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":2\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b94e532f-3bfd-3b3e-a0dc-3fc3424d6079.json b/test/data/enm/study-FCSV-b94e532f-3bfd-3b3e-a0dc-3fc3424d6079.json
new file mode 100644
index 0000000..54f590a
--- /dev/null
+++ b/test/data/enm/study-FCSV-b94e532f-3bfd-3b3e-a0dc-3fc3424d6079.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b94e532f-3bfd-3b3e-a0dc-3fc3424d6079",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.304,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.311,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 527.13,
+        "errQualifier": "sd",
+        "errorValue": 0.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b95a7fda-2885-373b-a363-16779a2758e5.json b/test/data/enm/study-FCSV-b95a7fda-2885-373b-a363-16779a2758e5.json
new file mode 100644
index 0000000..e6c876c
--- /dev/null
+++ b/test/data/enm/study-FCSV-b95a7fda-2885-373b-a363-16779a2758e5.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b95a7fda-2885-373b-a363-16779a2758e5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.293,
+        "errQualifier": "sd",
+        "errorValue": 0.082
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.504,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.6,
+        "errQualifier": "sd",
+        "errorValue": 0.66
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b99ae7e0-5ee4-366b-9046-91dd87086d5c.json b/test/data/enm/study-FCSV-b99ae7e0-5ee4-366b-9046-91dd87086d5c.json
new file mode 100644
index 0000000..37a91b2
--- /dev/null
+++ b/test/data/enm/study-FCSV-b99ae7e0-5ee4-366b-9046-91dd87086d5c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-b99ae7e0-5ee4-366b-9046-91dd87086d5c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":119\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":3\n}\n,\"P00748\":{\n\t\"loValue\":3\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":330\n}\n,\"P01009\":{\n\t\"loValue\":7\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":12\n}\n,\"P01024\":{\n\t\"loValue\":94\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":73\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":9\n}\n,\"P01857\":{\n\t\"loValue\":6\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":5\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":26\n}\n,\"P02649\":{\n\t\"loValue\":134\n}\n,\"P02652\":{\n\t\"loValue\":18\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":5\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":3\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":18\n}\n,\"P03952\":{\n\t\"loValue\":9\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":95\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":15\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":134\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":10\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":16\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":17\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":20\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":22\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":3\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":7\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":6\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":6\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":2\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":8\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":13\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":14\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":3\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":14\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b9a50179-8b81-3bde-8f21-91cdb9189e25.json b/test/data/enm/study-FCSV-b9a50179-8b81-3bde-8f21-91cdb9189e25.json
new file mode 100644
index 0000000..4bd4ff0
--- /dev/null
+++ b/test/data/enm/study-FCSV-b9a50179-8b81-3bde-8f21-91cdb9189e25.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b9a50179-8b81-3bde-8f21-91cdb9189e25",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.322,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.397,
+        "errQualifier": "sd",
+        "errorValue": 0.035
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 526.9,
+        "errQualifier": "sd",
+        "errorValue": 0.56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b9a8ad63-a63a-3a3a-884c-7fb4c398c7cf.json b/test/data/enm/study-FCSV-b9a8ad63-a63a-3a3a-884c-7fb4c398c7cf.json
new file mode 100644
index 0000000..2ddd76d
--- /dev/null
+++ b/test/data/enm/study-FCSV-b9a8ad63-a63a-3a3a-884c-7fb4c398c7cf.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-b9a8ad63-a63a-3a3a-884c-7fb4c398c7cf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.229,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.27,
+        "errQualifier": "sd",
+        "errorValue": 0.051
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.7,
+        "errQualifier": "sd",
+        "errorValue": 0.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b9b2b6f4-facc-398d-a804-d2a486650326.json b/test/data/enm/study-FCSV-b9b2b6f4-facc-398d-a804-d2a486650326.json
new file mode 100644
index 0000000..c6f6032
--- /dev/null
+++ b/test/data/enm/study-FCSV-b9b2b6f4-facc-398d-a804-d2a486650326.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-b9b2b6f4-facc-398d-a804-d2a486650326",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.043,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.046,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7.json b/test/data/enm/study-FCSV-ba0e918e-80e9-375f-baba-7f17b7cd7e00.json
index 8bdb429..8bdb429 100644
--- a/test/data/enm/study-FCSV-c4e9df58-f3fb-34f6-9c56-0626c12fb1b7.json
+++ b/test/data/enm/study-FCSV-ba0e918e-80e9-375f-baba-7f17b7cd7e00.json
diff --git a/test/data/enm/study-FCSV-ba509f05-395d-3c29-9f75-9e5a7f2c0d60.json b/test/data/enm/study-FCSV-ba509f05-395d-3c29-9f75-9e5a7f2c0d60.json
new file mode 100644
index 0000000..e64ad91
--- /dev/null
+++ b/test/data/enm/study-FCSV-ba509f05-395d-3c29-9f75-9e5a7f2c0d60.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ba509f05-395d-3c29-9f75-9e5a7f2c0d60",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.012,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.426,
+        "errQualifier": "std",
+        "errorValue": 1.053
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ba52a5bd-c1b4-36b8-ab05-d73427f70d65.json b/test/data/enm/study-FCSV-ba52a5bd-c1b4-36b8-ab05-d73427f70d65.json
new file mode 100644
index 0000000..ec65d61
--- /dev/null
+++ b/test/data/enm/study-FCSV-ba52a5bd-c1b4-36b8-ab05-d73427f70d65.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ba52a5bd-c1b4-36b8-ab05-d73427f70d65",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.408,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.292,
+        "errQualifier": "std",
+        "errorValue": 0.085
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bafa7dbd-ba6b-31b2-bb23-b8efe6558935.json b/test/data/enm/study-FCSV-bafa7dbd-ba6b-31b2-bb23-b8efe6558935.json
new file mode 100644
index 0000000..d123f21
--- /dev/null
+++ b/test/data/enm/study-FCSV-bafa7dbd-ba6b-31b2-bb23-b8efe6558935.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-bafa7dbd-ba6b-31b2-bb23-b8efe6558935",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4.json b/test/data/enm/study-FCSV-bafc610b-e83d-3a1c-a17a-733c8d007a66.json
index 9e66515..9e66515 100644
--- a/test/data/enm/study-FCSV-1180669a-fc30-3bc1-b53e-6a200c4248e4.json
+++ b/test/data/enm/study-FCSV-bafc610b-e83d-3a1c-a17a-733c8d007a66.json
diff --git a/test/data/enm/study-FCSV-bb000300-1d3b-35dc-9cb5-01f4cefc31d9.json b/test/data/enm/study-FCSV-bb000300-1d3b-35dc-9cb5-01f4cefc31d9.json
new file mode 100644
index 0000000..99c0cf6
--- /dev/null
+++ b/test/data/enm/study-FCSV-bb000300-1d3b-35dc-9cb5-01f4cefc31d9.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-bb000300-1d3b-35dc-9cb5-01f4cefc31d9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bb1efb08-234a-3c89-8352-e7f72785a02e.json b/test/data/enm/study-FCSV-bb1efb08-234a-3c89-8352-e7f72785a02e.json
new file mode 100644
index 0000000..d5784a3
--- /dev/null
+++ b/test/data/enm/study-FCSV-bb1efb08-234a-3c89-8352-e7f72785a02e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-bb1efb08-234a-3c89-8352-e7f72785a02e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.976,
+        "errQualifier": "sd",
+        "errorValue": 0.908
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-99734121-3347-3d4e-9bc6-67956450b140.json b/test/data/enm/study-FCSV-bb647692-f1e0-3c97-9997-5b07d2c495fa.json
index 2c03e79..2c03e79 100644
--- a/test/data/enm/study-FCSV-99734121-3347-3d4e-9bc6-67956450b140.json
+++ b/test/data/enm/study-FCSV-bb647692-f1e0-3c97-9997-5b07d2c495fa.json
diff --git a/test/data/enm/study-FCSV-bb70e58e-589f-3349-9d3a-b1321ca37bd5.json b/test/data/enm/study-FCSV-bb70e58e-589f-3349-9d3a-b1321ca37bd5.json
new file mode 100644
index 0000000..f0d5bac
--- /dev/null
+++ b/test/data/enm/study-FCSV-bb70e58e-589f-3349-9d3a-b1321ca37bd5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-bb70e58e-589f-3349-9d3a-b1321ca37bd5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":21\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":5\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":4\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":4\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":4\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":0\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":15\n}\n,\"P01009\":{\n\t\"loValue\":3\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":1\n}\n,\"P01024\":{\n\t\"loValue\":56\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":4\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":2\n}\n,\"P01597\":{\n\t\"loValue\":1\n}\n,\"P01599\":{\n\t\"loValue\":1\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":3\n}\n,\"P01611\":{\n\t\"loValue\":3\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":1\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":7\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":3\n}\n,\"P01781\":{\n\t\"loValue\":2\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":30\n}\n,\"P01857\":{\n\t\"loValue\":42\n}\n,\"P01859\":{\n\t\"loValue\":35\n}\n,\"P01860\":{\n\t\"loValue\":9\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":58\n}\n,\"P01876\":{\n\t\"loValue\":14\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":2\n}\n,\"P02649\":{\n\t\"loValue\":5\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":2\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":1\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":4\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":2\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":29\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":4\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":1\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":17\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":24\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":6\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":27\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":1\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":31\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":3\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bb7493a6-a0f7-3ab2-9ccc-ed9766a4767e.json b/test/data/enm/study-FCSV-bb7493a6-a0f7-3ab2-9ccc-ed9766a4767e.json
new file mode 100644
index 0000000..0d19d29
--- /dev/null
+++ b/test/data/enm/study-FCSV-bb7493a6-a0f7-3ab2-9ccc-ed9766a4767e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-bb7493a6-a0f7-3ab2-9ccc-ed9766a4767e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":2\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":1\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":1\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":22\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":1\n}\n,\"P00742\":{\n\t\"loValue\":5\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":0\n}\n,\"P01009\":{\n\t\"loValue\":96\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":3\n}\n,\"P01023\":{\n\t\"loValue\":46\n}\n,\"P01024\":{\n\t\"loValue\":54\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":32\n}\n,\"P01857\":{\n\t\"loValue\":18\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":29\n}\n,\"P01876\":{\n\t\"loValue\":19\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":14\n}\n,\"P02649\":{\n\t\"loValue\":6\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":3\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":12\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":1\n}\n,\"P02760\":{\n\t\"loValue\":46\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":12\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":10\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":13\n}\n,\"P04004\":{\n\t\"loValue\":178\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":57\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":6\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":4\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":2\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":12\n}\n,\"P05155\":{\n\t\"loValue\":11\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":2\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":4\n}\n,\"P06727\":{\n\t\"loValue\":3\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":2\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":37\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":1\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":43\n}\n,\"P0C0L5\":{\n\t\"loValue\":13\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":4\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":5\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":188\n}\n,\"P19827\":{\n\t\"loValue\":108\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":1\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":2\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":1\n}\n,\"P31942\":{\n\t\"loValue\":1\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":12\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":29\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":6\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":203\n}\n,\"Q14624\":{\n\t\"loValue\":4\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":2\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":2\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":1\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":1\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":12\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":1\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":1\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":1\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":1\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bb795ff5-8fe2-3edc-8e08-14e23ccd8a96.json b/test/data/enm/study-FCSV-bb795ff5-8fe2-3edc-8e08-14e23ccd8a96.json
new file mode 100644
index 0000000..27ca50a
--- /dev/null
+++ b/test/data/enm/study-FCSV-bb795ff5-8fe2-3edc-8e08-14e23ccd8a96.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-bb795ff5-8fe2-3edc-8e08-14e23ccd8a96",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bbd6f992-fe9b-3560-b011-8174f23e943f.json b/test/data/enm/study-FCSV-bbd6f992-fe9b-3560-b011-8174f23e943f.json
new file mode 100644
index 0000000..d01e388
--- /dev/null
+++ b/test/data/enm/study-FCSV-bbd6f992-fe9b-3560-b011-8174f23e943f.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-bbd6f992-fe9b-3560-b011-8174f23e943f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.191,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.308,
+        "errQualifier": "sd",
+        "errorValue": 0.033
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d677545a-5079-3793-8990-4061a6b254c5.json b/test/data/enm/study-FCSV-bc0de82b-6462-3c68-84d7-a308b769cddb.json
index 8c884cd..8c884cd 100644
--- a/test/data/enm/study-FCSV-d677545a-5079-3793-8990-4061a6b254c5.json
+++ b/test/data/enm/study-FCSV-bc0de82b-6462-3c68-84d7-a308b769cddb.json
diff --git a/test/data/enm/study-FCSV-bc7d2436-26a2-39d0-a938-8504cdfe6d5d.json b/test/data/enm/study-FCSV-bc7d2436-26a2-39d0-a938-8504cdfe6d5d.json
new file mode 100644
index 0000000..fd2e510
--- /dev/null
+++ b/test/data/enm/study-FCSV-bc7d2436-26a2-39d0-a938-8504cdfe6d5d.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-bc7d2436-26a2-39d0-a938-8504cdfe6d5d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.239,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.381,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 524.5,
+        "errQualifier": "sd",
+        "errorValue": 0.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bca73fcc-5eb8-33d6-881a-83ede6574146.json b/test/data/enm/study-FCSV-bca73fcc-5eb8-33d6-881a-83ede6574146.json
new file mode 100644
index 0000000..36925ec
--- /dev/null
+++ b/test/data/enm/study-FCSV-bca73fcc-5eb8-33d6-881a-83ede6574146.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-bca73fcc-5eb8-33d6-881a-83ede6574146",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.39,
+        "errQualifier": "sd",
+        "errorValue": 0.28
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.76,
+        "errQualifier": "sd",
+        "errorValue": 1.37
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 48.25,
+        "errQualifier": "sd",
+        "errorValue": 1.98
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.38,
+        "errQualifier": "sd",
+        "errorValue": 0.89
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54.21,
+        "errQualifier": "sd",
+        "errorValue": 1.14
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.05,
+        "errQualifier": "sd",
+        "errorValue": 1.26
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 54.21,
+        "errQualifier": "sd",
+        "errorValue": 3.79
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.09,
+        "errQualifier": "sd",
+        "errorValue": 2.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e.json b/test/data/enm/study-FCSV-bce0ea48-6572-331a-be1e-2e7f06857932.json
index d6fdd92..d6fdd92 100644
--- a/test/data/enm/study-FCSV-9bf04ec0-f6b6-30a6-8970-19a51968532e.json
+++ b/test/data/enm/study-FCSV-bce0ea48-6572-331a-be1e-2e7f06857932.json
diff --git a/test/data/enm/study-FCSV-bcf5b80e-489e-3365-aac0-8450d93be79c.json b/test/data/enm/study-FCSV-bcf5b80e-489e-3365-aac0-8450d93be79c.json
new file mode 100644
index 0000000..7096626
--- /dev/null
+++ b/test/data/enm/study-FCSV-bcf5b80e-489e-3365-aac0-8450d93be79c.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-bcf5b80e-489e-3365-aac0-8450d93be79c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 12.19,
+        "errQualifier": "sd",
+        "errorValue": 3.54
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.48,
+        "errQualifier": "sd",
+        "errorValue": 2.91
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bd330e58-97cb-30cf-8079-3677d032c17e.json b/test/data/enm/study-FCSV-bd330e58-97cb-30cf-8079-3677d032c17e.json
new file mode 100644
index 0000000..5962c93
--- /dev/null
+++ b/test/data/enm/study-FCSV-bd330e58-97cb-30cf-8079-3677d032c17e.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-bd330e58-97cb-30cf-8079-3677d032c17e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 40.47,
+        "errQualifier": "sd",
+        "errorValue": 0.9
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 68.42,
+        "errQualifier": "sd",
+        "errorValue": 3.09
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.57,
+        "errQualifier": "sd",
+        "errorValue": 11.07
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.03,
+        "errQualifier": "sd",
+        "errorValue": 23.02
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.68,
+        "errQualifier": "sd",
+        "errorValue": 10.52
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.45,
+        "errQualifier": "sd",
+        "errorValue": 16.82
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.68,
+        "errQualifier": "sd",
+        "errorValue": 4.21
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 104.54,
+        "errQualifier": "sd",
+        "errorValue": 28.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bd4134e3-1f1e-36b1-964b-ead3debc811f.json b/test/data/enm/study-FCSV-bd4134e3-1f1e-36b1-964b-ead3debc811f.json
new file mode 100644
index 0000000..e25fed9
--- /dev/null
+++ b/test/data/enm/study-FCSV-bd4134e3-1f1e-36b1-964b-ead3debc811f.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-bd4134e3-1f1e-36b1-964b-ead3debc811f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bd55db82-9fd4-32ea-b47b-f5682c8ff4e3.json b/test/data/enm/study-FCSV-bd55db82-9fd4-32ea-b47b-f5682c8ff4e3.json
new file mode 100644
index 0000000..cdf8a86
--- /dev/null
+++ b/test/data/enm/study-FCSV-bd55db82-9fd4-32ea-b47b-f5682c8ff4e3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-bd55db82-9fd4-32ea-b47b-f5682c8ff4e3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.097,
+        "errQualifier": "sd",
+        "errorValue": 0.026
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.371,
+        "errQualifier": "std",
+        "errorValue": 0.384
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bd8ee00a-130c-3174-a06f-6d442775d760.json b/test/data/enm/study-FCSV-bd8ee00a-130c-3174-a06f-6d442775d760.json
new file mode 100644
index 0000000..087f347
--- /dev/null
+++ b/test/data/enm/study-FCSV-bd8ee00a-130c-3174-a06f-6d442775d760.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-bd8ee00a-130c-3174-a06f-6d442775d760",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.497,
+        "errQualifier": "sd",
+        "errorValue": 0.08
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.009,
+        "errQualifier": "std",
+        "errorValue": 0.233
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bda85014-7954-3bff-b965-2baf7d64f9db.json b/test/data/enm/study-FCSV-bda85014-7954-3bff-b965-2baf7d64f9db.json
new file mode 100644
index 0000000..519c9a6
--- /dev/null
+++ b/test/data/enm/study-FCSV-bda85014-7954-3bff-b965-2baf7d64f9db.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-bda85014-7954-3bff-b965-2baf7d64f9db",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bdbfb5d8-281d-3193-8354-9771e698c8c0.json b/test/data/enm/study-FCSV-bdbfb5d8-281d-3193-8354-9771e698c8c0.json
new file mode 100644
index 0000000..61fc4f0
--- /dev/null
+++ b/test/data/enm/study-FCSV-bdbfb5d8-281d-3193-8354-9771e698c8c0.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-bdbfb5d8-281d-3193-8354-9771e698c8c0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 468.291,
+        "errQualifier": "sd",
+        "errorValue": 12.915
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 9,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-be057030-4bde-39ab-af19-f9103812e707.json b/test/data/enm/study-FCSV-be057030-4bde-39ab-af19-f9103812e707.json
new file mode 100644
index 0000000..126294c
--- /dev/null
+++ b/test/data/enm/study-FCSV-be057030-4bde-39ab-af19-f9103812e707.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-be057030-4bde-39ab-af19-f9103812e707",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-be0e1f98-4324-3e4a-869d-9202feba537a.json b/test/data/enm/study-FCSV-be0e1f98-4324-3e4a-869d-9202feba537a.json
new file mode 100644
index 0000000..f5c8a62
--- /dev/null
+++ b/test/data/enm/study-FCSV-be0e1f98-4324-3e4a-869d-9202feba537a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-be0e1f98-4324-3e4a-869d-9202feba537a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.017,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.86,
+        "errQualifier": "std",
+        "errorValue": 0.339
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-be430e3a-3ab6-36c6-bcaa-57ea48a3053e.json b/test/data/enm/study-FCSV-be430e3a-3ab6-36c6-bcaa-57ea48a3053e.json
new file mode 100644
index 0000000..deff7be
--- /dev/null
+++ b/test/data/enm/study-FCSV-be430e3a-3ab6-36c6-bcaa-57ea48a3053e.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-be430e3a-3ab6-36c6-bcaa-57ea48a3053e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 247.019,
+        "errQualifier": "sd",
+        "errorValue": 15.077
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-be833d6d-b0fb-382a-a055-9e92c9ee5898.json b/test/data/enm/study-FCSV-be833d6d-b0fb-382a-a055-9e92c9ee5898.json
new file mode 100644
index 0000000..7bd99d3
--- /dev/null
+++ b/test/data/enm/study-FCSV-be833d6d-b0fb-382a-a055-9e92c9ee5898.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-be833d6d-b0fb-382a-a055-9e92c9ee5898",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.582,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.78,
+        "errQualifier": "std",
+        "errorValue": 0.078
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bebd68f0-4319-3926-8467-1c831180d9aa.json b/test/data/enm/study-FCSV-bebd68f0-4319-3926-8467-1c831180d9aa.json
new file mode 100644
index 0000000..e0313f6
--- /dev/null
+++ b/test/data/enm/study-FCSV-bebd68f0-4319-3926-8467-1c831180d9aa.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-bebd68f0-4319-3926-8467-1c831180d9aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.215,
+        "errQualifier": "sd",
+        "errorValue": 0.245
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bf0159c3-cd3a-36d8-8275-669acc3d2b43.json b/test/data/enm/study-FCSV-bf0159c3-cd3a-36d8-8275-669acc3d2b43.json
new file mode 100644
index 0000000..205e909
--- /dev/null
+++ b/test/data/enm/study-FCSV-bf0159c3-cd3a-36d8-8275-669acc3d2b43.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-bf0159c3-cd3a-36d8-8275-669acc3d2b43",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.209,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.315,
+        "errQualifier": "sd",
+        "errorValue": 0.037
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 539.08,
+        "errQualifier": "sd",
+        "errorValue": 1.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bf390bb6-6209-342a-b72b-019aeebda116.json b/test/data/enm/study-FCSV-bf390bb6-6209-342a-b72b-019aeebda116.json
new file mode 100644
index 0000000..f61161b
--- /dev/null
+++ b/test/data/enm/study-FCSV-bf390bb6-6209-342a-b72b-019aeebda116.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-bf390bb6-6209-342a-b72b-019aeebda116",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":7\n}\n,\"P00451\":{\n\t\"loValue\":4\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":101\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":18\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":272\n}\n,\"P01009\":{\n\t\"loValue\":37\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":55\n}\n,\"P01024\":{\n\t\"loValue\":99\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":271\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":2\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":20\n}\n,\"P01857\":{\n\t\"loValue\":27\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":19\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":16\n}\n,\"P02649\":{\n\t\"loValue\":50\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":4\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":4\n}\n,\"P02763\":{\n\t\"loValue\":6\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":9\n}\n,\"P02774\":{\n\t\"loValue\":9\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":27\n}\n,\"P02788\":{\n\t\"loValue\":16\n}\n,\"P02790\":{\n\t\"loValue\":3\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":83\n}\n,\"P03952\":{\n\t\"loValue\":59\n}\n,\"P04003\":{\n\t\"loValue\":2\n}\n,\"P04004\":{\n\t\"loValue\":146\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":271\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":7\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":25\n}\n,\"P05155\":{\n\t\"loValue\":14\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":9\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":10\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":1\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":2\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":19\n}\n,\"P08697\":{\n\t\"loValue\":10\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":33\n}\n,\"P0C0L5\":{\n\t\"loValue\":4\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":4\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":6\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":33\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":14\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":5\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":6\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":4\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":5\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":1\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":5\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":3\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":3\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":10\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":4\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":13\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":5\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":34\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":1\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":1\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":3\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":2\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":17\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":7\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":1\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":18\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bf510912-1531-3e75-8bfa-5d05a57388a0.json b/test/data/enm/study-FCSV-bf510912-1531-3e75-8bfa-5d05a57388a0.json
new file mode 100644
index 0000000..eda687e
--- /dev/null
+++ b/test/data/enm/study-FCSV-bf510912-1531-3e75-8bfa-5d05a57388a0.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-bf510912-1531-3e75-8bfa-5d05a57388a0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bf9f24b5-37de-30fc-93a9-44db0e75c8c4.json b/test/data/enm/study-FCSV-bf9f24b5-37de-30fc-93a9-44db0e75c8c4.json
new file mode 100644
index 0000000..90d5800
--- /dev/null
+++ b/test/data/enm/study-FCSV-bf9f24b5-37de-30fc-93a9-44db0e75c8c4.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-bf9f24b5-37de-30fc-93a9-44db0e75c8c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c07c1c6a-c367-3d66-a619-3057fc619d97.json b/test/data/enm/study-FCSV-c07c1c6a-c367-3d66-a619-3057fc619d97.json
new file mode 100644
index 0000000..9b850a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-c07c1c6a-c367-3d66-a619-3057fc619d97.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-c07c1c6a-c367-3d66-a619-3057fc619d97",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.71,
+        "errQualifier": "sd",
+        "errorValue": 6.15
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -2.94,
+        "errQualifier": "sd",
+        "errorValue": 0.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c080009b-8ca3-354d-a0b7-ea44e45ed59c.json b/test/data/enm/study-FCSV-c080009b-8ca3-354d-a0b7-ea44e45ed59c.json
new file mode 100644
index 0000000..f6af5df
--- /dev/null
+++ b/test/data/enm/study-FCSV-c080009b-8ca3-354d-a0b7-ea44e45ed59c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c080009b-8ca3-354d-a0b7-ea44e45ed59c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-methionine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c131513f-1227-3c35-91bd-5e122ce8a0b8.json b/test/data/enm/study-FCSV-c131513f-1227-3c35-91bd-5e122ce8a0b8.json
new file mode 100644
index 0000000..c7f8384
--- /dev/null
+++ b/test/data/enm/study-FCSV-c131513f-1227-3c35-91bd-5e122ce8a0b8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-c131513f-1227-3c35-91bd-5e122ce8a0b8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.75,
+        "errQualifier": "sd",
+        "errorValue": 5.5
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.09,
+        "errQualifier": "sd",
+        "errorValue": 1.32
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c1994336-9594-3241-a196-cf97741443c2.json b/test/data/enm/study-FCSV-c1994336-9594-3241-a196-cf97741443c2.json
new file mode 100644
index 0000000..a75b088
--- /dev/null
+++ b/test/data/enm/study-FCSV-c1994336-9594-3241-a196-cf97741443c2.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c1994336-9594-3241-a196-cf97741443c2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.172,
+        "errQualifier": "sd",
+        "errorValue": 0.041
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.14,
+        "errQualifier": "sd",
+        "errorValue": 0.032
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-07629748-9b8e-381b-a4e6-79b495404e02.json b/test/data/enm/study-FCSV-c1e75aa7-3823-36dc-83cf-3d8c93970b1a.json
index 0e8ec3f..0e8ec3f 100644
--- a/test/data/enm/study-FCSV-07629748-9b8e-381b-a4e6-79b495404e02.json
+++ b/test/data/enm/study-FCSV-c1e75aa7-3823-36dc-83cf-3d8c93970b1a.json
diff --git a/test/data/enm/study-FCSV-c2326bbb-2d3e-3511-afed-fab5879af615.json b/test/data/enm/study-FCSV-c2326bbb-2d3e-3511-afed-fab5879af615.json
new file mode 100644
index 0000000..089e2d6
--- /dev/null
+++ b/test/data/enm/study-FCSV-c2326bbb-2d3e-3511-afed-fab5879af615.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c2326bbb-2d3e-3511-afed-fab5879af615",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Carboxymethyl-poly(ethylene glycol)-thiol (5kDa) (low density)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c35aa81b-8dd4-39d2-b84b-d8c8219089e8.json b/test/data/enm/study-FCSV-c35aa81b-8dd4-39d2-b84b-d8c8219089e8.json
new file mode 100644
index 0000000..4f4dcf1
--- /dev/null
+++ b/test/data/enm/study-FCSV-c35aa81b-8dd4-39d2-b84b-d8c8219089e8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-c35aa81b-8dd4-39d2-b84b-d8c8219089e8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 13.49,
+        "errQualifier": "sd",
+        "errorValue": 3.51
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.7,
+        "errQualifier": "sd",
+        "errorValue": 3.94
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa.json b/test/data/enm/study-FCSV-c361e844-8bd1-337b-bd06-a9b55d29aaaa.json
index 8f0b792..8f0b792 100644
--- a/test/data/enm/study-FCSV-9b1b9ad6-e41d-3ddd-8bea-561af1fc27aa.json
+++ b/test/data/enm/study-FCSV-c361e844-8bd1-337b-bd06-a9b55d29aaaa.json
diff --git a/test/data/enm/study-FCSV-c36bff37-d777-30d1-b084-ce62c6df2481.json b/test/data/enm/study-FCSV-c36bff37-d777-30d1-b084-ce62c6df2481.json
new file mode 100644
index 0000000..a3381d4
--- /dev/null
+++ b/test/data/enm/study-FCSV-c36bff37-d777-30d1-b084-ce62c6df2481.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c36bff37-d777-30d1-b084-ce62c6df2481",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.744,
+        "errQualifier": "sd",
+        "errorValue": 0.397
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.427,
+        "errQualifier": "std",
+        "errorValue": 0.77
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c3b79fad-633a-39f9-abb1-ac6a5cbd2f64.json b/test/data/enm/study-FCSV-c3b79fad-633a-39f9-abb1-ac6a5cbd2f64.json
new file mode 100644
index 0000000..1a5a07b
--- /dev/null
+++ b/test/data/enm/study-FCSV-c3b79fad-633a-39f9-abb1-ac6a5cbd2f64.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c3b79fad-633a-39f9-abb1-ac6a5cbd2f64",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c453f960-56e1-3c52-b674-45ebdae09a57.json b/test/data/enm/study-FCSV-c453f960-56e1-3c52-b674-45ebdae09a57.json
new file mode 100644
index 0000000..ad739e1
--- /dev/null
+++ b/test/data/enm/study-FCSV-c453f960-56e1-3c52-b674-45ebdae09a57.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-c453f960-56e1-3c52-b674-45ebdae09a57",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -34.58,
+        "errQualifier": "sd",
+        "errorValue": 2.89
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.97,
+        "errQualifier": "sd",
+        "errorValue": 1.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c4633659-4266-3651-86c0-9b7a4c3824ff.json b/test/data/enm/study-FCSV-c4633659-4266-3651-86c0-9b7a4c3824ff.json
new file mode 100644
index 0000000..7a819fc
--- /dev/null
+++ b/test/data/enm/study-FCSV-c4633659-4266-3651-86c0-9b7a4c3824ff.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c4633659-4266-3651-86c0-9b7a4c3824ff",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c4a148fe-4dc7-33c3-b1cc-118db231cad0.json b/test/data/enm/study-FCSV-c4a148fe-4dc7-33c3-b1cc-118db231cad0.json
new file mode 100644
index 0000000..f3ce817
--- /dev/null
+++ b/test/data/enm/study-FCSV-c4a148fe-4dc7-33c3-b1cc-118db231cad0.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-c4a148fe-4dc7-33c3-b1cc-118db231cad0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31.json b/test/data/enm/study-FCSV-c4bd281f-3e3d-3098-b446-c29058e05000.json
index 23cdd74..23cdd74 100644
--- a/test/data/enm/study-FCSV-a7f3867d-85fc-33ab-8167-66b73c818f31.json
+++ b/test/data/enm/study-FCSV-c4bd281f-3e3d-3098-b446-c29058e05000.json
diff --git a/test/data/enm/study-FCSV-c50ad51d-e653-3ba8-9c6b-aa770cfe643c.json b/test/data/enm/study-FCSV-c50ad51d-e653-3ba8-9c6b-aa770cfe643c.json
new file mode 100644
index 0000000..51bdd37
--- /dev/null
+++ b/test/data/enm/study-FCSV-c50ad51d-e653-3ba8-9c6b-aa770cfe643c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c50ad51d-e653-3ba8-9c6b-aa770cfe643c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated poly(ethyleneimine)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c56e4402-6bfe-38ab-b1e6-0f5ce7c5f1bb.json b/test/data/enm/study-FCSV-c56e4402-6bfe-38ab-b1e6-0f5ce7c5f1bb.json
new file mode 100644
index 0000000..0af47b1
--- /dev/null
+++ b/test/data/enm/study-FCSV-c56e4402-6bfe-38ab-b1e6-0f5ce7c5f1bb.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-c56e4402-6bfe-38ab-b1e6-0f5ce7c5f1bb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -37.05,
+        "errQualifier": "sd",
+        "errorValue": 1.09
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.66,
+        "errQualifier": "sd",
+        "errorValue": 4.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c57f3724-3bad-35b7-a6b5-cc75cb2c4b5c.json b/test/data/enm/study-FCSV-c57f3724-3bad-35b7-a6b5-cc75cb2c4b5c.json
new file mode 100644
index 0000000..9dd77cb
--- /dev/null
+++ b/test/data/enm/study-FCSV-c57f3724-3bad-35b7-a6b5-cc75cb2c4b5c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-c57f3724-3bad-35b7-a6b5-cc75cb2c4b5c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":10\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":1\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":1\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":5\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":864\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":18\n}\n,\"P00739\":{\n\t\"loValue\":12\n}\n,\"P00740\":{\n\t\"loValue\":108\n}\n,\"P00742\":{\n\t\"loValue\":188\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":99\n}\n,\"P01009\":{\n\t\"loValue\":46\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":43\n}\n,\"P01024\":{\n\t\"loValue\":87\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":84\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":1\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":32\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":4\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":65\n}\n,\"P01876\":{\n\t\"loValue\":23\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":17\n}\n,\"P02649\":{\n\t\"loValue\":42\n}\n,\"P02652\":{\n\t\"loValue\":9\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":2\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":24\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":2\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":12\n}\n,\"P02763\":{\n\t\"loValue\":7\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":7\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":39\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":7\n}\n,\"P03951\":{\n\t\"loValue\":24\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":294\n}\n,\"P04004\":{\n\t\"loValue\":52\n}\n,\"P04070\":{\n\t\"loValue\":56\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":9\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":12\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":4\n}\n,\"P04220\":{\n\t\"loValue\":6\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":6\n}\n,\"P05155\":{\n\t\"loValue\":6\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":1\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":180\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":3\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":12\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":8\n}\n,\"P08709\":{\n\t\"loValue\":15\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":107\n}\n,\"P0C0L5\":{\n\t\"loValue\":13\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":13\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":1\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":6\n}\n,\"P19827\":{\n\t\"loValue\":1\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":25\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":38\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":3\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":2\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":2\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":1\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":3\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":2\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":3\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":1\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":16\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":1\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":2\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":1\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":1\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":3\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":1\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":2\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":3\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":1\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":5\n}\n,\"Q9UEW3\":{\n\t\"loValue\":2\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":2\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":23\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c5ba0dbb-8bad-3aba-8a1a-9816d7c994d6.json b/test/data/enm/study-FCSV-c5ba0dbb-8bad-3aba-8a1a-9816d7c994d6.json
new file mode 100644
index 0000000..bf700b2
--- /dev/null
+++ b/test/data/enm/study-FCSV-c5ba0dbb-8bad-3aba-8a1a-9816d7c994d6.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c5ba0dbb-8bad-3aba-8a1a-9816d7c994d6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.434,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.204,
+        "errQualifier": "std",
+        "errorValue": 0.064
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c5f50c22-dd04-3dbf-aa5f-1b3bbfb107a0.json b/test/data/enm/study-FCSV-c5f50c22-dd04-3dbf-aa5f-1b3bbfb107a0.json
new file mode 100644
index 0000000..c775e5f
--- /dev/null
+++ b/test/data/enm/study-FCSV-c5f50c22-dd04-3dbf-aa5f-1b3bbfb107a0.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c5f50c22-dd04-3dbf-aa5f-1b3bbfb107a0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.022,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.505,
+        "errQualifier": "std",
+        "errorValue": 0.222
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c623b0c9-5a99-3889-8446-9004f87fecc3.json b/test/data/enm/study-FCSV-c623b0c9-5a99-3889-8446-9004f87fecc3.json
new file mode 100644
index 0000000..711e7c0
--- /dev/null
+++ b/test/data/enm/study-FCSV-c623b0c9-5a99-3889-8446-9004f87fecc3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c623b0c9-5a99-3889-8446-9004f87fecc3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.213,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.178,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c67af91e-899d-3119-87a8-f6e8a8d443d4.json b/test/data/enm/study-FCSV-c67af91e-899d-3119-87a8-f6e8a8d443d4.json
new file mode 100644
index 0000000..97b6c59
--- /dev/null
+++ b/test/data/enm/study-FCSV-c67af91e-899d-3119-87a8-f6e8a8d443d4.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c67af91e-899d-3119-87a8-f6e8a8d443d4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c6a732b8-281a-34af-aa83-c8b4e46bc07f.json b/test/data/enm/study-FCSV-c6a732b8-281a-34af-aa83-c8b4e46bc07f.json
new file mode 100644
index 0000000..c01fb64
--- /dev/null
+++ b/test/data/enm/study-FCSV-c6a732b8-281a-34af-aa83-c8b4e46bc07f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-c6a732b8-281a-34af-aa83-c8b4e46bc07f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.194,
+        "errQualifier": "sd",
+        "errorValue": 0.046
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.353,
+        "errQualifier": "sd",
+        "errorValue": 0.065
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.03,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c6afa419-a735-3ca5-97b1-005f10e4a662.json b/test/data/enm/study-FCSV-c6afa419-a735-3ca5-97b1-005f10e4a662.json
new file mode 100644
index 0000000..af20034
--- /dev/null
+++ b/test/data/enm/study-FCSV-c6afa419-a735-3ca5-97b1-005f10e4a662.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-c6afa419-a735-3ca5-97b1-005f10e4a662",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.499,
+        "errQualifier": "sd",
+        "errorValue": 1.098
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c6b1e2c2-bca8-3b09-a205-949cbcbcc8bd.json b/test/data/enm/study-FCSV-c6b1e2c2-bca8-3b09-a205-949cbcbcc8bd.json
new file mode 100644
index 0000000..f1e67b1
--- /dev/null
+++ b/test/data/enm/study-FCSV-c6b1e2c2-bca8-3b09-a205-949cbcbcc8bd.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-c6b1e2c2-bca8-3b09-a205-949cbcbcc8bd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 73.95,
+        "errQualifier": "sd",
+        "errorValue": 3.07
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 105.18,
+        "errQualifier": "sd",
+        "errorValue": 2.03
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73.09,
+        "errQualifier": "sd",
+        "errorValue": 5.8
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 102.81,
+        "errQualifier": "sd",
+        "errorValue": 3.02
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 78.94,
+        "errQualifier": "sd",
+        "errorValue": 6.5
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 97.46,
+        "errQualifier": "sd",
+        "errorValue": 4.93
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 78.94,
+        "errQualifier": "sd",
+        "errorValue": 3.68
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106.02,
+        "errQualifier": "sd",
+        "errorValue": 1.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c6c58a39-1c8f-3521-b926-92a209943dbf.json b/test/data/enm/study-FCSV-c6c58a39-1c8f-3521-b926-92a209943dbf.json
new file mode 100644
index 0000000..ed1d1b8
--- /dev/null
+++ b/test/data/enm/study-FCSV-c6c58a39-1c8f-3521-b926-92a209943dbf.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-c6c58a39-1c8f-3521-b926-92a209943dbf",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Methoxy-poly(ethylene glycol)-thiol (20kDa) (low density)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c6e6506a-fded-3c04-879c-20e371359833.json b/test/data/enm/study-FCSV-c6e6506a-fded-3c04-879c-20e371359833.json
new file mode 100644
index 0000000..f001b34
--- /dev/null
+++ b/test/data/enm/study-FCSV-c6e6506a-fded-3c04-879c-20e371359833.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c6e6506a-fded-3c04-879c-20e371359833",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.006,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -7.459,
+        "errQualifier": "std",
+        "errorValue": 0.674
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c70ebd26-bc4a-3345-8f14-5d1d53faeae0.json b/test/data/enm/study-FCSV-c70ebd26-bc4a-3345-8f14-5d1d53faeae0.json
new file mode 100644
index 0000000..5335569
--- /dev/null
+++ b/test/data/enm/study-FCSV-c70ebd26-bc4a-3345-8f14-5d1d53faeae0.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-c70ebd26-bc4a-3345-8f14-5d1d53faeae0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":13\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":3\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":0\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":26\n}\n,\"P01009\":{\n\t\"loValue\":1\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":0\n}\n,\"P01024\":{\n\t\"loValue\":27\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":1\n}\n,\"P01597\":{\n\t\"loValue\":2\n}\n,\"P01599\":{\n\t\"loValue\":1\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":4\n}\n,\"P01611\":{\n\t\"loValue\":3\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":4\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":9\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":2\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":30\n}\n,\"P01857\":{\n\t\"loValue\":29\n}\n,\"P01859\":{\n\t\"loValue\":14\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":47\n}\n,\"P01876\":{\n\t\"loValue\":9\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":2\n}\n,\"P02649\":{\n\t\"loValue\":3\n}\n,\"P02652\":{\n\t\"loValue\":1\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":7\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":9\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":3\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":4\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":23\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":1\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":3\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":1\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":2\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":8\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":1\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":23\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":1\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c7524fd7-6b2e-39b6-8ba6-bc6e6739d138.json b/test/data/enm/study-FCSV-c7524fd7-6b2e-39b6-8ba6-bc6e6739d138.json
new file mode 100644
index 0000000..5168869
--- /dev/null
+++ b/test/data/enm/study-FCSV-c7524fd7-6b2e-39b6-8ba6-bc6e6739d138.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-c7524fd7-6b2e-39b6-8ba6-bc6e6739d138",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.41,
+        "errQualifier": "sd",
+        "errorValue": 0.035
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.31,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c78490e8-81b3-3981-b187-acb5639e4b9e.json b/test/data/enm/study-FCSV-c78490e8-81b3-3981-b187-acb5639e4b9e.json
new file mode 100644
index 0000000..4dd39e4
--- /dev/null
+++ b/test/data/enm/study-FCSV-c78490e8-81b3-3981-b187-acb5639e4b9e.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-c78490e8-81b3-3981-b187-acb5639e4b9e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.282,
+        "errQualifier": "sd",
+        "errorValue": 0.031
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.303,
+        "errQualifier": "sd",
+        "errorValue": 0.048
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.5,
+        "errQualifier": "sd",
+        "errorValue": 0.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c841fe15-fb44-3d0b-974b-5609a8f2d387.json b/test/data/enm/study-FCSV-c841fe15-fb44-3d0b-974b-5609a8f2d387.json
new file mode 100644
index 0000000..7542790
--- /dev/null
+++ b/test/data/enm/study-FCSV-c841fe15-fb44-3d0b-974b-5609a8f2d387.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-c841fe15-fb44-3d0b-974b-5609a8f2d387",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 258.61,
+        "errQualifier": "sd",
+        "errorValue": 16.624
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c8746690-8cc3-37a7-a92a-016bdaee9d6b.json b/test/data/enm/study-FCSV-c8746690-8cc3-37a7-a92a-016bdaee9d6b.json
new file mode 100644
index 0000000..e300482
--- /dev/null
+++ b/test/data/enm/study-FCSV-c8746690-8cc3-37a7-a92a-016bdaee9d6b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-c8746690-8cc3-37a7-a92a-016bdaee9d6b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.463,
+        "errQualifier": "sd",
+        "errorValue": 0.389
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c889407c-55e8-3548-bfbb-116a3bf8e4fd.json b/test/data/enm/study-FCSV-c889407c-55e8-3548-bfbb-116a3bf8e4fd.json
new file mode 100644
index 0000000..79b5e4d
--- /dev/null
+++ b/test/data/enm/study-FCSV-c889407c-55e8-3548-bfbb-116a3bf8e4fd.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-c889407c-55e8-3548-bfbb-116a3bf8e4fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.67,
+        "errQualifier": "sd",
+        "errorValue": 0.078
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c8d29f8c-2d7c-3b08-b9ff-ec97f7d56af6.json b/test/data/enm/study-FCSV-c8d29f8c-2d7c-3b08-b9ff-ec97f7d56af6.json
new file mode 100644
index 0000000..7f71649
--- /dev/null
+++ b/test/data/enm/study-FCSV-c8d29f8c-2d7c-3b08-b9ff-ec97f7d56af6.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-c8d29f8c-2d7c-3b08-b9ff-ec97f7d56af6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.63,
+        "errQualifier": "sd",
+        "errorValue": 1.06
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 45.52,
+        "errQualifier": "sd",
+        "errorValue": 2.94
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.04,
+        "errQualifier": "sd",
+        "errorValue": 0.75
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.96,
+        "errQualifier": "sd",
+        "errorValue": 3.05
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.4,
+        "errQualifier": "sd",
+        "errorValue": 0.51
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.05,
+        "errQualifier": "sd",
+        "errorValue": 2.64
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.4,
+        "errQualifier": "sd",
+        "errorValue": 1.42
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 51.1,
+        "errQualifier": "sd",
+        "errorValue": 5.92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c959036a-4caa-3223-b95c-cbed468229aa.json b/test/data/enm/study-FCSV-c959036a-4caa-3223-b95c-cbed468229aa.json
new file mode 100644
index 0000000..dda157d
--- /dev/null
+++ b/test/data/enm/study-FCSV-c959036a-4caa-3223-b95c-cbed468229aa.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-c959036a-4caa-3223-b95c-cbed468229aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.211,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.264,
+        "errQualifier": "sd",
+        "errorValue": 0.048
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.07,
+        "errQualifier": "sd",
+        "errorValue": 0.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c980e9f7-bbcf-3930-bff4-3cee5b5e5187.json b/test/data/enm/study-FCSV-c980e9f7-bbcf-3930-bff4-3cee5b5e5187.json
new file mode 100644
index 0000000..522eccf
--- /dev/null
+++ b/test/data/enm/study-FCSV-c980e9f7-bbcf-3930-bff4-3cee5b5e5187.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-c980e9f7-bbcf-3930-bff4-3cee5b5e5187",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-47e98c51-7508-362f-84d3-494bb124b849"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 265.51,
+        "errQualifier": "sd",
+        "errorValue": 8.544
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.064
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c9f52c12-9b98-3a83-852d-dbb866cbff1e.json b/test/data/enm/study-FCSV-c9f52c12-9b98-3a83-852d-dbb866cbff1e.json
new file mode 100644
index 0000000..8d81ce4
--- /dev/null
+++ b/test/data/enm/study-FCSV-c9f52c12-9b98-3a83-852d-dbb866cbff1e.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-c9f52c12-9b98-3a83-852d-dbb866cbff1e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ca0e19fb-d7f1-3beb-81e4-a862acf63690.json b/test/data/enm/study-FCSV-ca0e19fb-d7f1-3beb-81e4-a862acf63690.json
new file mode 100644
index 0000000..acfa712
--- /dev/null
+++ b/test/data/enm/study-FCSV-ca0e19fb-d7f1-3beb-81e4-a862acf63690.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ca0e19fb-d7f1-3beb-81e4-a862acf63690",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.23,
+        "errQualifier": "sd",
+        "errorValue": 0.129
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.201,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ca1a9255-2f77-3830-a12b-297670751f01.json b/test/data/enm/study-FCSV-ca1a9255-2f77-3830-a12b-297670751f01.json
new file mode 100644
index 0000000..83b651c
--- /dev/null
+++ b/test/data/enm/study-FCSV-ca1a9255-2f77-3830-a12b-297670751f01.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-ca1a9255-2f77-3830-a12b-297670751f01",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 6.05,
+        "errQualifier": "sd",
+        "errorValue": 0.79
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c.json b/test/data/enm/study-FCSV-ca4f81ad-4bac-3a30-82de-fc6acd72a43c.json
index a4ade6f..a4ade6f 100644
--- a/test/data/enm/study-FCSV-a4df7f03-50e1-387c-b0b7-2ce62ed03a8c.json
+++ b/test/data/enm/study-FCSV-ca4f81ad-4bac-3a30-82de-fc6acd72a43c.json
diff --git a/test/data/enm/study-FCSV-ca594a9d-10f8-3ec3-b9fc-e61acd52a99c.json b/test/data/enm/study-FCSV-ca594a9d-10f8-3ec3-b9fc-e61acd52a99c.json
new file mode 100644
index 0000000..878f4fd
--- /dev/null
+++ b/test/data/enm/study-FCSV-ca594a9d-10f8-3ec3-b9fc-e61acd52a99c.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-ca594a9d-10f8-3ec3-b9fc-e61acd52a99c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 252.069,
+        "errQualifier": "sd",
+        "errorValue": 34.575
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.035
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ca76f47a-a412-3403-b9a7-0849ae4a53d8.json b/test/data/enm/study-FCSV-ca76f47a-a412-3403-b9a7-0849ae4a53d8.json
new file mode 100644
index 0000000..0776514
--- /dev/null
+++ b/test/data/enm/study-FCSV-ca76f47a-a412-3403-b9a7-0849ae4a53d8.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-ca76f47a-a412-3403-b9a7-0849ae4a53d8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -20.4,
+        "errQualifier": "sd",
+        "errorValue": 6.18
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.73,
+        "errQualifier": "sd",
+        "errorValue": 1.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cb1c6792-61a7-39f0-b08e-8a864b177b0d.json b/test/data/enm/study-FCSV-cb1c6792-61a7-39f0-b08e-8a864b177b0d.json
new file mode 100644
index 0000000..647707e
--- /dev/null
+++ b/test/data/enm/study-FCSV-cb1c6792-61a7-39f0-b08e-8a864b177b0d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-cb1c6792-61a7-39f0-b08e-8a864b177b0d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.1,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.27,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cb35a264-24a7-3d3c-93b6-9c4679148c96.json b/test/data/enm/study-FCSV-cb35a264-24a7-3d3c-93b6-9c4679148c96.json
new file mode 100644
index 0000000..f2048f5
--- /dev/null
+++ b/test/data/enm/study-FCSV-cb35a264-24a7-3d3c-93b6-9c4679148c96.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-cb35a264-24a7-3d3c-93b6-9c4679148c96",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "3-Mercaptopropionic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cb4f7ee2-0320-31f3-a709-13084f999d9b.json b/test/data/enm/study-FCSV-cb4f7ee2-0320-31f3-a709-13084f999d9b.json
new file mode 100644
index 0000000..1c86454
--- /dev/null
+++ b/test/data/enm/study-FCSV-cb4f7ee2-0320-31f3-a709-13084f999d9b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-cb4f7ee2-0320-31f3-a709-13084f999d9b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Ag]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cbd557b9-7a53-3bcc-b978-9b325996038a.json b/test/data/enm/study-FCSV-cbd557b9-7a53-3bcc-b978-9b325996038a.json
new file mode 100644
index 0000000..33eada5
--- /dev/null
+++ b/test/data/enm/study-FCSV-cbd557b9-7a53-3bcc-b978-9b325996038a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-cbd557b9-7a53-3bcc-b978-9b325996038a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino-poly(ethylene glycol)-thiol (5kDa)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cbf15de6-2565-32e0-be98-3531501dadbb.json b/test/data/enm/study-FCSV-cbf15de6-2565-32e0-be98-3531501dadbb.json
new file mode 100644
index 0000000..0d3f6d4
--- /dev/null
+++ b/test/data/enm/study-FCSV-cbf15de6-2565-32e0-be98-3531501dadbb.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-cbf15de6-2565-32e0-be98-3531501dadbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 19.93,
+        "errQualifier": "sd",
+        "errorValue": 3.51
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.61,
+        "errQualifier": "sd",
+        "errorValue": 3.54
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6.json b/test/data/enm/study-FCSV-cc033080-b0f0-3b18-8b73-cedb239b11aa.json
index 39ba8b9..39ba8b9 100644
--- a/test/data/enm/study-FCSV-45779e93-a25d-39cc-9294-afc0b59f3cd6.json
+++ b/test/data/enm/study-FCSV-cc033080-b0f0-3b18-8b73-cedb239b11aa.json
diff --git a/test/data/enm/study-FCSV-cc1e4387-a681-325f-a15f-5fd498836ca4.json b/test/data/enm/study-FCSV-cc1e4387-a681-325f-a15f-5fd498836ca4.json
new file mode 100644
index 0000000..974569f
--- /dev/null
+++ b/test/data/enm/study-FCSV-cc1e4387-a681-325f-a15f-5fd498836ca4.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-cc1e4387-a681-325f-a15f-5fd498836ca4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cc8b0a78-19a1-39c1-8a90-a0f54e6b2310.json b/test/data/enm/study-FCSV-cc8b0a78-19a1-39c1-8a90-a0f54e6b2310.json
new file mode 100644
index 0000000..3537538
--- /dev/null
+++ b/test/data/enm/study-FCSV-cc8b0a78-19a1-39c1-8a90-a0f54e6b2310.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-cc8b0a78-19a1-39c1-8a90-a0f54e6b2310",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Thiolated L-tryptophan"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cc8ba55c-62ce-3d76-ba60-db33a4ae83ef.json b/test/data/enm/study-FCSV-cc8ba55c-62ce-3d76-ba60-db33a4ae83ef.json
new file mode 100644
index 0000000..b4a09ba
--- /dev/null
+++ b/test/data/enm/study-FCSV-cc8ba55c-62ce-3d76-ba60-db33a4ae83ef.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-cc8ba55c-62ce-3d76-ba60-db33a4ae83ef",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ccbeaaae-d483-34dd-be2d-32eba9b44a62.json b/test/data/enm/study-FCSV-ccbeaaae-d483-34dd-be2d-32eba9b44a62.json
new file mode 100644
index 0000000..876dbb6
--- /dev/null
+++ b/test/data/enm/study-FCSV-ccbeaaae-d483-34dd-be2d-32eba9b44a62.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ccbeaaae-d483-34dd-be2d-32eba9b44a62",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.168,
+        "errQualifier": "sd",
+        "errorValue": 0.036
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.163,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ccf9ad6a-e23d-3bf3-b073-731ae4252c15.json b/test/data/enm/study-FCSV-ccf9ad6a-e23d-3bf3-b073-731ae4252c15.json
new file mode 100644
index 0000000..3aa75b9
--- /dev/null
+++ b/test/data/enm/study-FCSV-ccf9ad6a-e23d-3bf3-b073-731ae4252c15.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-ccf9ad6a-e23d-3bf3-b073-731ae4252c15",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.245,
+        "errQualifier": "sd",
+        "errorValue": 0.076
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.376,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 522.33,
+        "errQualifier": "sd",
+        "errorValue": 0.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d.json b/test/data/enm/study-FCSV-cd6f398c-533c-395c-9a68-ecb19e4e23c7.json
index ed3c33a..ed3c33a 100644
--- a/test/data/enm/study-FCSV-e5b47d9a-ba9d-3310-8f92-72aad8f0364d.json
+++ b/test/data/enm/study-FCSV-cd6f398c-533c-395c-9a68-ecb19e4e23c7.json
diff --git a/test/data/enm/study-FCSV-ce0b214c-f85d-3e7f-90df-ba43c49d311b.json b/test/data/enm/study-FCSV-ce0b214c-f85d-3e7f-90df-ba43c49d311b.json
new file mode 100644
index 0000000..7e7874c
--- /dev/null
+++ b/test/data/enm/study-FCSV-ce0b214c-f85d-3e7f-90df-ba43c49d311b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-ce0b214c-f85d-3e7f-90df-ba43c49d311b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.615,
+        "errQualifier": "sd",
+        "errorValue": 0.619
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ce176f78-6009-3e9e-9fb1-48a6723d56f2.json b/test/data/enm/study-FCSV-ce176f78-6009-3e9e-9fb1-48a6723d56f2.json
new file mode 100644
index 0000000..b310e8e
--- /dev/null
+++ b/test/data/enm/study-FCSV-ce176f78-6009-3e9e-9fb1-48a6723d56f2.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-ce176f78-6009-3e9e-9fb1-48a6723d56f2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -26.65,
+        "errQualifier": "sd",
+        "errorValue": 5.04
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.74,
+        "errQualifier": "sd",
+        "errorValue": 0.79
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ce4ec6c2-0620-3459-9970-aa3f0949d072.json b/test/data/enm/study-FCSV-ce4ec6c2-0620-3459-9970-aa3f0949d072.json
new file mode 100644
index 0000000..e58fe77
--- /dev/null
+++ b/test/data/enm/study-FCSV-ce4ec6c2-0620-3459-9970-aa3f0949d072.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-ce4ec6c2-0620-3459-9970-aa3f0949d072",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ce593159-597a-32c2-986b-97ad2a22adbb.json b/test/data/enm/study-FCSV-ce593159-597a-32c2-986b-97ad2a22adbb.json
new file mode 100644
index 0000000..e5e31f0
--- /dev/null
+++ b/test/data/enm/study-FCSV-ce593159-597a-32c2-986b-97ad2a22adbb.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-ce593159-597a-32c2-986b-97ad2a22adbb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.224,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.276,
+        "errQualifier": "sd",
+        "errorValue": 0.092
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 540.13,
+        "errQualifier": "sd",
+        "errorValue": 1.07
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ce73229d-49cc-32b0-bb7b-1d4d8057e354.json b/test/data/enm/study-FCSV-ce73229d-49cc-32b0-bb7b-1d4d8057e354.json
new file mode 100644
index 0000000..cb04eaf
--- /dev/null
+++ b/test/data/enm/study-FCSV-ce73229d-49cc-32b0-bb7b-1d4d8057e354.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-ce73229d-49cc-32b0-bb7b-1d4d8057e354",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.258,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.343,
+        "errQualifier": "sd",
+        "errorValue": 0.077
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 539.93,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cebd923a-59ab-313f-9d83-22e23dd5da9d.json b/test/data/enm/study-FCSV-cebd923a-59ab-313f-9d83-22e23dd5da9d.json
new file mode 100644
index 0000000..4b6815b
--- /dev/null
+++ b/test/data/enm/study-FCSV-cebd923a-59ab-313f-9d83-22e23dd5da9d.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-cebd923a-59ab-313f-9d83-22e23dd5da9d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.237,
+        "errQualifier": "sd",
+        "errorValue": 0.072
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.301,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 519.13,
+        "errQualifier": "sd",
+        "errorValue": 0.31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cedf33f3-d153-3e30-b960-0135ee562594.json b/test/data/enm/study-FCSV-cedf33f3-d153-3e30-b960-0135ee562594.json
new file mode 100644
index 0000000..344586d
--- /dev/null
+++ b/test/data/enm/study-FCSV-cedf33f3-d153-3e30-b960-0135ee562594.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-cedf33f3-d153-3e30-b960-0135ee562594",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c.json b/test/data/enm/study-FCSV-cf03c1de-991a-3797-a0bb-e90b3a9a631b.json
index a74dc53..a74dc53 100644
--- a/test/data/enm/study-FCSV-924a51b9-97d3-31fb-b289-52688d9d0d3c.json
+++ b/test/data/enm/study-FCSV-cf03c1de-991a-3797-a0bb-e90b3a9a631b.json
diff --git a/test/data/enm/study-FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17.json b/test/data/enm/study-FCSV-cf1bdc2a-ebaa-3fe2-8e67-40878294bbd7.json
index f3a5a24..f3a5a24 100644
--- a/test/data/enm/study-FCSV-de6203a6-aea6-3910-8f49-598f80ab6a17.json
+++ b/test/data/enm/study-FCSV-cf1bdc2a-ebaa-3fe2-8e67-40878294bbd7.json
diff --git a/test/data/enm/study-FCSV-cf36f2d9-3862-3acc-94f6-4676919f97f3.json b/test/data/enm/study-FCSV-cf36f2d9-3862-3acc-94f6-4676919f97f3.json
new file mode 100644
index 0000000..edc2c48
--- /dev/null
+++ b/test/data/enm/study-FCSV-cf36f2d9-3862-3acc-94f6-4676919f97f3.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-cf36f2d9-3862-3acc-94f6-4676919f97f3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 30.74,
+        "errQualifier": "sd",
+        "errorValue": 15.48
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 60.99,
+        "errQualifier": "sd",
+        "errorValue": 10.36
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.15,
+        "errQualifier": "sd",
+        "errorValue": 17.74
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.7,
+        "errQualifier": "sd",
+        "errorValue": 17.5
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.92,
+        "errQualifier": "sd",
+        "errorValue": 1.85
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.03,
+        "errQualifier": "sd",
+        "errorValue": 17.44
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 47.92,
+        "errQualifier": "sd",
+        "errorValue": 23.31
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.65,
+        "errQualifier": "sd",
+        "errorValue": 19.58
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-cf5391cc-0770-31c6-ba97-2d2640605ae6.json b/test/data/enm/study-FCSV-cf5391cc-0770-31c6-ba97-2d2640605ae6.json
new file mode 100644
index 0000000..b408508
--- /dev/null
+++ b/test/data/enm/study-FCSV-cf5391cc-0770-31c6-ba97-2d2640605ae6.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-cf5391cc-0770-31c6-ba97-2d2640605ae6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 18.65,
+        "errQualifier": "sd",
+        "errorValue": 0.55
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 54.03,
+        "errQualifier": "sd",
+        "errorValue": 3.34
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.47,
+        "errQualifier": "sd",
+        "errorValue": 3.23
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.58,
+        "errQualifier": "sd",
+        "errorValue": 8.58
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.3,
+        "errQualifier": "sd",
+        "errorValue": 2.03
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.35,
+        "errQualifier": "sd",
+        "errorValue": 9.29
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28.3,
+        "errQualifier": "sd",
+        "errorValue": 11.7
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.47,
+        "errQualifier": "sd",
+        "errorValue": 4.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a.json b/test/data/enm/study-FCSV-cfae88bf-ecc5-3887-b46a-00930c485f65.json
index babc2a8..babc2a8 100644
--- a/test/data/enm/study-FCSV-9e599ca9-9a8f-3094-a97b-3fb35b08a82a.json
+++ b/test/data/enm/study-FCSV-cfae88bf-ecc5-3887-b46a-00930c485f65.json
diff --git a/test/data/enm/study-FCSV-c975883b-640e-38a6-aabe-7596e3abcd95.json b/test/data/enm/study-FCSV-cfb90d7d-f85c-30c2-b145-3da71fac2910.json
index c1bf39a..c1bf39a 100644
--- a/test/data/enm/study-FCSV-c975883b-640e-38a6-aabe-7596e3abcd95.json
+++ b/test/data/enm/study-FCSV-cfb90d7d-f85c-30c2-b145-3da71fac2910.json
diff --git a/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json b/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json
new file mode 100644
index 0000000..f9beea1
--- /dev/null
+++ b/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 42.9,
+        "errQualifier": "sd",
+        "errorValue": 2.72
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 50.05,
+        "errQualifier": "sd",
+        "errorValue": 2.99
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.71,
+        "errQualifier": "sd",
+        "errorValue": 1.12
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15.44,
+        "errQualifier": "sd",
+        "errorValue": 2.54
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.73,
+        "errQualifier": "sd",
+        "errorValue": 2.03
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 13.15,
+        "errQualifier": "sd",
+        "errorValue": 2.5
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.73,
+        "errQualifier": "sd",
+        "errorValue": 3.37
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65.41,
+        "errQualifier": "sd",
+        "errorValue": 3.19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d0f53f59-07c3-335a-8a12-85e6afd74d18.json b/test/data/enm/study-FCSV-d0f53f59-07c3-335a-8a12-85e6afd74d18.json
new file mode 100644
index 0000000..21bcbdd
--- /dev/null
+++ b/test/data/enm/study-FCSV-d0f53f59-07c3-335a-8a12-85e6afd74d18.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-d0f53f59-07c3-335a-8a12-85e6afd74d18",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d0f73aac-eea4-3727-9b27-dda1a3aa4903.json b/test/data/enm/study-FCSV-d0f73aac-eea4-3727-9b27-dda1a3aa4903.json
new file mode 100644
index 0000000..43e3c5d
--- /dev/null
+++ b/test/data/enm/study-FCSV-d0f73aac-eea4-3727-9b27-dda1a3aa4903.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-d0f73aac-eea4-3727-9b27-dda1a3aa4903",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 20.53,
+        "errQualifier": "sd",
+        "errorValue": 0.69
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.4,
+        "errQualifier": "sd",
+        "errorValue": 7.1
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.51,
+        "errQualifier": "sd",
+        "errorValue": 1.59
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 113.66,
+        "errQualifier": "sd",
+        "errorValue": 118.06
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.23,
+        "errQualifier": "sd",
+        "errorValue": 2.01
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.62,
+        "errQualifier": "sd",
+        "errorValue": 0.7
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.23,
+        "errQualifier": "sd",
+        "errorValue": 0.72
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 99.43,
+        "errQualifier": "sd",
+        "errorValue": 36.75
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d127072e-740f-3751-865a-5bc3c85663ca.json b/test/data/enm/study-FCSV-d127072e-740f-3751-865a-5bc3c85663ca.json
new file mode 100644
index 0000000..bf4d9b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-d127072e-740f-3751-865a-5bc3c85663ca.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-d127072e-740f-3751-865a-5bc3c85663ca",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.56,
+        "errQualifier": "sd",
+        "errorValue": 4.11
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -6.63,
+        "errQualifier": "sd",
+        "errorValue": 4.93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d1351a90-3e8d-3f80-acbe-aea1d4155105.json b/test/data/enm/study-FCSV-d1351a90-3e8d-3f80-acbe-aea1d4155105.json
new file mode 100644
index 0000000..81b7d26
--- /dev/null
+++ b/test/data/enm/study-FCSV-d1351a90-3e8d-3f80-acbe-aea1d4155105.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-d1351a90-3e8d-3f80-acbe-aea1d4155105",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d1386a55-1179-3ecf-ba91-8a4145793e06.json b/test/data/enm/study-FCSV-d1386a55-1179-3ecf-ba91-8a4145793e06.json
new file mode 100644
index 0000000..f5fa8e8
--- /dev/null
+++ b/test/data/enm/study-FCSV-d1386a55-1179-3ecf-ba91-8a4145793e06.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d1386a55-1179-3ecf-ba91-8a4145793e06",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-93c29ebf-e80e-354c-893f-923385c72858"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.109,
+        "errQualifier": "sd",
+        "errorValue": 0.157
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -3.199,
+        "errQualifier": "std",
+        "errorValue": 2.078
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819.json b/test/data/enm/study-FCSV-d14478f5-a012-32b5-bb6c-813ba90d38c8.json
index 6cac2e2..6cac2e2 100644
--- a/test/data/enm/study-FCSV-d63a1ea0-3194-3019-a9e0-0960e63b5819.json
+++ b/test/data/enm/study-FCSV-d14478f5-a012-32b5-bb6c-813ba90d38c8.json
diff --git a/test/data/enm/study-FCSV-d146e10c-a0a5-3881-8c30-0d1c74059c2f.json b/test/data/enm/study-FCSV-d146e10c-a0a5-3881-8c30-0d1c74059c2f.json
new file mode 100644
index 0000000..307c1bf
--- /dev/null
+++ b/test/data/enm/study-FCSV-d146e10c-a0a5-3881-8c30-0d1c74059c2f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-d146e10c-a0a5-3881-8c30-0d1c74059c2f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 4.79,
+        "errQualifier": "sd",
+        "errorValue": 0.144
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e.json b/test/data/enm/study-FCSV-d1aac751-f813-3858-8a4f-8f97ff74cddc.json
index 862a08d..862a08d 100644
--- a/test/data/enm/study-FCSV-0e958d54-f957-37d2-91d1-ee8d9961548e.json
+++ b/test/data/enm/study-FCSV-d1aac751-f813-3858-8a4f-8f97ff74cddc.json
diff --git a/test/data/enm/study-FCSV-d1be8b96-c11e-355a-ab8a-c84aa4ee38ae.json b/test/data/enm/study-FCSV-d1be8b96-c11e-355a-ab8a-c84aa4ee38ae.json
new file mode 100644
index 0000000..78e0bc2
--- /dev/null
+++ b/test/data/enm/study-FCSV-d1be8b96-c11e-355a-ab8a-c84aa4ee38ae.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-d1be8b96-c11e-355a-ab8a-c84aa4ee38ae",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-74492618-7ff6-39c9-b396-8d7465109083"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.056,
+        "errQualifier": "sd",
+        "errorValue": 1.344
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.006
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d1fedfa2-4e8f-3674-8ae5-55028250eeeb.json b/test/data/enm/study-FCSV-d1fedfa2-4e8f-3674-8ae5-55028250eeeb.json
new file mode 100644
index 0000000..125907c
--- /dev/null
+++ b/test/data/enm/study-FCSV-d1fedfa2-4e8f-3674-8ae5-55028250eeeb.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-d1fedfa2-4e8f-3674-8ae5-55028250eeeb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.74,
+        "errQualifier": "sd",
+        "errorValue": 0.91
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 41.93,
+        "errQualifier": "sd",
+        "errorValue": 0.83
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.56,
+        "errQualifier": "sd",
+        "errorValue": 20.73
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 114.85,
+        "errQualifier": "sd",
+        "errorValue": 130.69
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.11,
+        "errQualifier": "sd",
+        "errorValue": 1.41
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 37.84,
+        "errQualifier": "sd",
+        "errorValue": 2.82
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.11,
+        "errQualifier": "sd",
+        "errorValue": 30.03
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.81,
+        "errQualifier": "sd",
+        "errorValue": 32.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0.json b/test/data/enm/study-FCSV-d1ff9be7-4a0c-3cb0-b3aa-c7569c00d290.json
index 897512d..897512d 100644
--- a/test/data/enm/study-FCSV-8dc5c24b-2e89-3833-b94d-920674a956a0.json
+++ b/test/data/enm/study-FCSV-d1ff9be7-4a0c-3cb0-b3aa-c7569c00d290.json
diff --git a/test/data/enm/study-FCSV-d24878e4-29cd-3f05-b2b9-bf4d2b5f64c4.json b/test/data/enm/study-FCSV-d24878e4-29cd-3f05-b2b9-bf4d2b5f64c4.json
new file mode 100644
index 0000000..9e6c540
--- /dev/null
+++ b/test/data/enm/study-FCSV-d24878e4-29cd-3f05-b2b9-bf4d2b5f64c4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-d24878e4-29cd-3f05-b2b9-bf4d2b5f64c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.541,
+        "errQualifier": "sd",
+        "errorValue": 1.291
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d24f57e9-c3f0-3fe4-88cd-8b7ff679539f.json b/test/data/enm/study-FCSV-d24f57e9-c3f0-3fe4-88cd-8b7ff679539f.json
new file mode 100644
index 0000000..88d40ad
--- /dev/null
+++ b/test/data/enm/study-FCSV-d24f57e9-c3f0-3fe4-88cd-8b7ff679539f.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-d24f57e9-c3f0-3fe4-88cd-8b7ff679539f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -30.7,
+        "errQualifier": "sd",
+        "errorValue": 5.23
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.68,
+        "errQualifier": "sd",
+        "errorValue": 1.54
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d276ea4a-a7e8-34bd-818c-a91f3f5b3e54.json b/test/data/enm/study-FCSV-d276ea4a-a7e8-34bd-818c-a91f3f5b3e54.json
new file mode 100644
index 0000000..3245b93
--- /dev/null
+++ b/test/data/enm/study-FCSV-d276ea4a-a7e8-34bd-818c-a91f3f5b3e54.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-d276ea4a-a7e8-34bd-818c-a91f3f5b3e54",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":6\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":2\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":1\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":1\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":1\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":143\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":7\n}\n,\"P00746\":{\n\t\"loValue\":2\n}\n,\"P00747\":{\n\t\"loValue\":3\n}\n,\"P00748\":{\n\t\"loValue\":16\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":239\n}\n,\"P01009\":{\n\t\"loValue\":6\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":15\n}\n,\"P01024\":{\n\t\"loValue\":59\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":167\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":1\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":19\n}\n,\"P01857\":{\n\t\"loValue\":15\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":23\n}\n,\"P01876\":{\n\t\"loValue\":8\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":8\n}\n,\"P02649\":{\n\t\"loValue\":96\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":93\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":7\n}\n,\"P02749\":{\n\t\"loValue\":2\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":3\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":36\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":14\n}\n,\"P03951\":{\n\t\"loValue\":123\n}\n,\"P03952\":{\n\t\"loValue\":23\n}\n,\"P04003\":{\n\t\"loValue\":13\n}\n,\"P04004\":{\n\t\"loValue\":112\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":6\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":110\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":1\n}\n,\"P05154\":{\n\t\"loValue\":30\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":1\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":9\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":16\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":1\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":7\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":11\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":1\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":9\n}\n,\"P08697\":{\n\t\"loValue\":3\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":163\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":2\n}\n,\"P10720\":{\n\t\"loValue\":14\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":8\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":6\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":7\n}\n,\"P15311\":{\n\t\"loValue\":1\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":1\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":5\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":3\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":5\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":4\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":1\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":14\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":2\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":2\n}\n,\"Q14624\":{\n\t\"loValue\":15\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":1\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":1\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":1\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":23\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":5\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":1\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":2\n}\n,\"Q9BXR6\":{\n\t\"loValue\":1\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":1\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":5\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":1\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d2815d0a-c5cf-35db-a4aa-44305850d8d9.json b/test/data/enm/study-FCSV-d2815d0a-c5cf-35db-a4aa-44305850d8d9.json
new file mode 100644
index 0000000..934d59e
--- /dev/null
+++ b/test/data/enm/study-FCSV-d2815d0a-c5cf-35db-a4aa-44305850d8d9.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-d2815d0a-c5cf-35db-a4aa-44305850d8d9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5c14595c-0e23-3f37-aaad-9988eba09196"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.835,
+        "errQualifier": "sd",
+        "errorValue": 0.399
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d2c53ee8-4d19-3ccd-ae69-57611b2b2b30.json b/test/data/enm/study-FCSV-d2c53ee8-4d19-3ccd-ae69-57611b2b2b30.json
new file mode 100644
index 0000000..f6cb3cd
--- /dev/null
+++ b/test/data/enm/study-FCSV-d2c53ee8-4d19-3ccd-ae69-57611b2b2b30.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d2c53ee8-4d19-3ccd-ae69-57611b2b2b30",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.507,
+        "errQualifier": "sd",
+        "errorValue": 0.059
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.98,
+        "errQualifier": "std",
+        "errorValue": 0.168
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d2cd2f10-7905-308e-a47f-8471a38cfed5.json b/test/data/enm/study-FCSV-d2cd2f10-7905-308e-a47f-8471a38cfed5.json
new file mode 100644
index 0000000..fd6acea
--- /dev/null
+++ b/test/data/enm/study-FCSV-d2cd2f10-7905-308e-a47f-8471a38cfed5.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d2cd2f10-7905-308e-a47f-8471a38cfed5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.058,
+        "errQualifier": "sd",
+        "errorValue": 0.03
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.282,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d2ecb7cc-5af7-35b6-9c66-ecc065e7a838.json b/test/data/enm/study-FCSV-d2ecb7cc-5af7-35b6-9c66-ecc065e7a838.json
new file mode 100644
index 0000000..e210a36
--- /dev/null
+++ b/test/data/enm/study-FCSV-d2ecb7cc-5af7-35b6-9c66-ecc065e7a838.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-d2ecb7cc-5af7-35b6-9c66-ecc065e7a838",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":25\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":45\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":4\n}\n,\"P00747\":{\n\t\"loValue\":6\n}\n,\"P00748\":{\n\t\"loValue\":4\n}\n,\"P00751\":{\n\t\"loValue\":16\n}\n,\"P01008\":{\n\t\"loValue\":156\n}\n,\"P01009\":{\n\t\"loValue\":12\n}\n,\"P01011\":{\n\t\"loValue\":8\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":20\n}\n,\"P01024\":{\n\t\"loValue\":233\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":137\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":1\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":8\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":2\n}\n,\"P01700\":{\n\t\"loValue\":1\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":4\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":53\n}\n,\"P01857\":{\n\t\"loValue\":59\n}\n,\"P01859\":{\n\t\"loValue\":12\n}\n,\"P01860\":{\n\t\"loValue\":13\n}\n,\"P01861\":{\n\t\"loValue\":1\n}\n,\"P01871\":{\n\t\"loValue\":21\n}\n,\"P01876\":{\n\t\"loValue\":36\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":3\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":33\n}\n,\"P02649\":{\n\t\"loValue\":22\n}\n,\"P02652\":{\n\t\"loValue\":5\n}\n,\"P02654\":{\n\t\"loValue\":5\n}\n,\"P02655\":{\n\t\"loValue\":1\n}\n,\"P02656\":{\n\t\"loValue\":11\n}\n,\"P02671\":{\n\t\"loValue\":2\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":3\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":60\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":15\n}\n,\"P02766\":{\n\t\"loValue\":2\n}\n,\"P02774\":{\n\t\"loValue\":8\n}\n,\"P02775\":{\n\t\"loValue\":2\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":52\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":22\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":35\n}\n,\"P03952\":{\n\t\"loValue\":27\n}\n,\"P04003\":{\n\t\"loValue\":19\n}\n,\"P04004\":{\n\t\"loValue\":68\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":14\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":35\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":52\n}\n,\"P05155\":{\n\t\"loValue\":15\n}\n,\"P05156\":{\n\t\"loValue\":5\n}\n,\"P05452\":{\n\t\"loValue\":11\n}\n,\"P05546\":{\n\t\"loValue\":4\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":45\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":11\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":79\n}\n,\"P08697\":{\n\t\"loValue\":11\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":1\n}\n,\"P0C0L4\":{\n\t\"loValue\":71\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":22\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":14\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":3\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":3\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":4\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":10\n}\n,\"P19827\":{\n\t\"loValue\":5\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":2\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":6\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":8\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":1\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":118\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":23\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d2f2b53f-f680-3583-833e-cf85631d5405.json b/test/data/enm/study-FCSV-d2f2b53f-f680-3583-833e-cf85631d5405.json
new file mode 100644
index 0000000..91e5766
--- /dev/null
+++ b/test/data/enm/study-FCSV-d2f2b53f-f680-3583-833e-cf85631d5405.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-d2f2b53f-f680-3583-833e-cf85631d5405",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.951,
+        "errQualifier": "sd",
+        "errorValue": 0.62
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d320e005-4c4f-37fe-8f44-4fddcad581db.json b/test/data/enm/study-FCSV-d320e005-4c4f-37fe-8f44-4fddcad581db.json
new file mode 100644
index 0000000..ea8da34
--- /dev/null
+++ b/test/data/enm/study-FCSV-d320e005-4c4f-37fe-8f44-4fddcad581db.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d320e005-4c4f-37fe-8f44-4fddcad581db",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.014,
+        "errQualifier": "sd",
+        "errorValue": 0.006
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.142,
+        "errQualifier": "std",
+        "errorValue": 0.594
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d32aed46-63be-33aa-a7e2-fd9669e77c83.json b/test/data/enm/study-FCSV-d32aed46-63be-33aa-a7e2-fd9669e77c83.json
new file mode 100644
index 0000000..98081e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-d32aed46-63be-33aa-a7e2-fd9669e77c83.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d32aed46-63be-33aa-a7e2-fd9669e77c83",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.018,
+        "errQualifier": "sd",
+        "errorValue": 0.011
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.778,
+        "errQualifier": "std",
+        "errorValue": 0.877
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d32db4b5-9c98-3364-9b68-8c0bed745c62.json b/test/data/enm/study-FCSV-d32db4b5-9c98-3364-9b68-8c0bed745c62.json
new file mode 100644
index 0000000..19cb1fe
--- /dev/null
+++ b/test/data/enm/study-FCSV-d32db4b5-9c98-3364-9b68-8c0bed745c62.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-d32db4b5-9c98-3364-9b68-8c0bed745c62",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 18.93,
+        "errQualifier": "sd",
+        "errorValue": 6.2
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.52,
+        "errQualifier": "sd",
+        "errorValue": 2.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d34092b1-0537-3894-9033-7ef5da80a25e.json b/test/data/enm/study-FCSV-d34092b1-0537-3894-9033-7ef5da80a25e.json
new file mode 100644
index 0000000..2acf9e3
--- /dev/null
+++ b/test/data/enm/study-FCSV-d34092b1-0537-3894-9033-7ef5da80a25e.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-d34092b1-0537-3894-9033-7ef5da80a25e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.2,
+        "errQualifier": "sd",
+        "errorValue": 0.66
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 33.05,
+        "errQualifier": "sd",
+        "errorValue": 1.67
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.84,
+        "errQualifier": "sd",
+        "errorValue": 0.66
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 53.41,
+        "errQualifier": "sd",
+        "errorValue": 18.99
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.38,
+        "errQualifier": "sd",
+        "errorValue": 0.7
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.48,
+        "errQualifier": "sd",
+        "errorValue": 0.14
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.38,
+        "errQualifier": "sd",
+        "errorValue": 0.6
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 57.18,
+        "errQualifier": "sd",
+        "errorValue": 21.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d3961157-296b-3d3c-aab5-7359514e2e6b.json b/test/data/enm/study-FCSV-d3961157-296b-3d3c-aab5-7359514e2e6b.json
new file mode 100644
index 0000000..34d68f6
--- /dev/null
+++ b/test/data/enm/study-FCSV-d3961157-296b-3d3c-aab5-7359514e2e6b.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d3961157-296b-3d3c-aab5-7359514e2e6b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.201,
+        "errQualifier": "sd",
+        "errorValue": 0.027
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.115,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d41ab2a2-6f6f-3467-bf50-d21993550db6.json b/test/data/enm/study-FCSV-d41ab2a2-6f6f-3467-bf50-d21993550db6.json
new file mode 100644
index 0000000..cec8868
--- /dev/null
+++ b/test/data/enm/study-FCSV-d41ab2a2-6f6f-3467-bf50-d21993550db6.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-d41ab2a2-6f6f-3467-bf50-d21993550db6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 95.37,
+        "errQualifier": "sd",
+        "errorValue": 3.58
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 106.12,
+        "errQualifier": "sd",
+        "errorValue": 4.97
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 94.5,
+        "errQualifier": "sd",
+        "errorValue": 8.07
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 102.13,
+        "errQualifier": "sd",
+        "errorValue": 3.94
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 98.7,
+        "errQualifier": "sd",
+        "errorValue": 4.96
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 91.66,
+        "errQualifier": "sd",
+        "errorValue": 2.12
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 98.7,
+        "errQualifier": "sd",
+        "errorValue": 5.82
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 108.76,
+        "errQualifier": "sd",
+        "errorValue": 5.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da.json b/test/data/enm/study-FCSV-d458cfc0-a664-3a58-90d0-2795fb572312.json
index dbfdd8f..dbfdd8f 100644
--- a/test/data/enm/study-FCSV-6046fc9f-3c73-3215-97e2-4ddcf85f41da.json
+++ b/test/data/enm/study-FCSV-d458cfc0-a664-3a58-90d0-2795fb572312.json
diff --git a/test/data/enm/study-FCSV-d471cef1-160a-3124-97da-301ada8a28d3.json b/test/data/enm/study-FCSV-d471cef1-160a-3124-97da-301ada8a28d3.json
new file mode 100644
index 0000000..636cf62
--- /dev/null
+++ b/test/data/enm/study-FCSV-d471cef1-160a-3124-97da-301ada8a28d3.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-d471cef1-160a-3124-97da-301ada8a28d3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":1\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":216\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":47\n}\n,\"P00742\":{\n\t\"loValue\":132\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":3\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":181\n}\n,\"P01009\":{\n\t\"loValue\":13\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":2\n}\n,\"P01024\":{\n\t\"loValue\":36\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":76\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":23\n}\n,\"P01857\":{\n\t\"loValue\":7\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":17\n}\n,\"P01876\":{\n\t\"loValue\":10\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":7\n}\n,\"P02649\":{\n\t\"loValue\":117\n}\n,\"P02652\":{\n\t\"loValue\":8\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":24\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":2\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":3\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":5\n}\n,\"P03951\":{\n\t\"loValue\":9\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":129\n}\n,\"P04004\":{\n\t\"loValue\":71\n}\n,\"P04070\":{\n\t\"loValue\":33\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":16\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":21\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":6\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":6\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":7\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":10\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":84\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":7\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":6\n}\n,\"P08709\":{\n\t\"loValue\":10\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":45\n}\n,\"P0C0L5\":{\n\t\"loValue\":8\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":3\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":5\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":17\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":1\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":6\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":3\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":6\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":1\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":1\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":3\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":4\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":2\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":2\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":1\n}\n,\"Q9Y490\":{\n\t\"loValue\":4\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c.json b/test/data/enm/study-FCSV-d4ad6677-83ab-3aba-a2c1-61ef6aba6792.json
index 93cf65d..93cf65d 100644
--- a/test/data/enm/study-FCSV-064f1803-3b9e-3f44-a5f6-60b1f573830c.json
+++ b/test/data/enm/study-FCSV-d4ad6677-83ab-3aba-a2c1-61ef6aba6792.json
diff --git a/test/data/enm/study-FCSV-d4c6db0c-af68-306f-9153-f9c014fe14c3.json b/test/data/enm/study-FCSV-d4c6db0c-af68-306f-9153-f9c014fe14c3.json
new file mode 100644
index 0000000..528c418
--- /dev/null
+++ b/test/data/enm/study-FCSV-d4c6db0c-af68-306f-9153-f9c014fe14c3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d4c6db0c-af68-306f-9153-f9c014fe14c3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.147,
+        "errQualifier": "sd",
+        "errorValue": 0.068
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.184,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d4e6efa1-d2ef-3197-9575-a29b10c88269.json b/test/data/enm/study-FCSV-d4e6efa1-d2ef-3197-9575-a29b10c88269.json
new file mode 100644
index 0000000..410c9f7
--- /dev/null
+++ b/test/data/enm/study-FCSV-d4e6efa1-d2ef-3197-9575-a29b10c88269.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-d4e6efa1-d2ef-3197-9575-a29b10c88269",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d580ade9-9be8-378e-a75f-20e779c7de19.json b/test/data/enm/study-FCSV-d580ade9-9be8-378e-a75f-20e779c7de19.json
new file mode 100644
index 0000000..1c29ef1
--- /dev/null
+++ b/test/data/enm/study-FCSV-d580ade9-9be8-378e-a75f-20e779c7de19.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-d580ade9-9be8-378e-a75f-20e779c7de19",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.498,
+        "errQualifier": "sd",
+        "errorValue": 0.119
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.651,
+        "errQualifier": "sd",
+        "errorValue": 0.047
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 528.02,
+        "errQualifier": "sd",
+        "errorValue": 1.41
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d5b393ff-93aa-3d51-8884-a16f03afefb0.json b/test/data/enm/study-FCSV-d5b393ff-93aa-3d51-8884-a16f03afefb0.json
new file mode 100644
index 0000000..2937ecd
--- /dev/null
+++ b/test/data/enm/study-FCSV-d5b393ff-93aa-3d51-8884-a16f03afefb0.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-d5b393ff-93aa-3d51-8884-a16f03afefb0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-06c1d24b-426b-39ec-8047-700808302325"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -33.48,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -8.81,
+        "errQualifier": "sd",
+        "errorValue": 1.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d5f75857-56e9-3e29-8fab-cce56494effd.json b/test/data/enm/study-FCSV-d5f75857-56e9-3e29-8fab-cce56494effd.json
new file mode 100644
index 0000000..e715e39
--- /dev/null
+++ b/test/data/enm/study-FCSV-d5f75857-56e9-3e29-8fab-cce56494effd.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-d5f75857-56e9-3e29-8fab-cce56494effd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -21.45,
+        "errQualifier": "sd",
+        "errorValue": 10.62
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -9.77,
+        "errQualifier": "sd",
+        "errorValue": 1.25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d5f82e41-f127-38b4-baa7-f8ffa6ac5824.json b/test/data/enm/study-FCSV-d5f82e41-f127-38b4-baa7-f8ffa6ac5824.json
new file mode 100644
index 0000000..6ba7f06
--- /dev/null
+++ b/test/data/enm/study-FCSV-d5f82e41-f127-38b4-baa7-f8ffa6ac5824.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d5f82e41-f127-38b4-baa7-f8ffa6ac5824",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.132,
+        "errQualifier": "sd",
+        "errorValue": 0.019
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -2.916,
+        "errQualifier": "std",
+        "errorValue": 0.209
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64.json b/test/data/enm/study-FCSV-d6e973d8-90fa-347a-afd4-f796d4003e6a.json
index f6fe6c4..f6fe6c4 100644
--- a/test/data/enm/study-FCSV-7087aac7-6f1d-320f-bfde-5897fe91af64.json
+++ b/test/data/enm/study-FCSV-d6e973d8-90fa-347a-afd4-f796d4003e6a.json
diff --git a/test/data/enm/study-FCSV-d6f8467c-a997-3595-96cd-affdb352245f.json b/test/data/enm/study-FCSV-d6f8467c-a997-3595-96cd-affdb352245f.json
new file mode 100644
index 0000000..bc7701f
--- /dev/null
+++ b/test/data/enm/study-FCSV-d6f8467c-a997-3595-96cd-affdb352245f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-d6f8467c-a997-3595-96cd-affdb352245f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":5\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":27\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":1\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":2\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":3\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":40\n}\n,\"P00736\":{\n\t\"loValue\":2\n}\n,\"P00738\":{\n\t\"loValue\":10\n}\n,\"P00739\":{\n\t\"loValue\":9\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":53\n}\n,\"P01009\":{\n\t\"loValue\":64\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":2\n}\n,\"P01023\":{\n\t\"loValue\":15\n}\n,\"P01024\":{\n\t\"loValue\":91\n}\n,\"P01031\":{\n\t\"loValue\":9\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":3\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":29\n}\n,\"P01857\":{\n\t\"loValue\":34\n}\n,\"P01859\":{\n\t\"loValue\":12\n}\n,\"P01860\":{\n\t\"loValue\":6\n}\n,\"P01861\":{\n\t\"loValue\":3\n}\n,\"P01871\":{\n\t\"loValue\":16\n}\n,\"P01876\":{\n\t\"loValue\":20\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":45\n}\n,\"P02649\":{\n\t\"loValue\":30\n}\n,\"P02652\":{\n\t\"loValue\":14\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":5\n}\n,\"P02656\":{\n\t\"loValue\":4\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":1\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":4\n}\n,\"P02749\":{\n\t\"loValue\":13\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":1\n}\n,\"P02766\":{\n\t\"loValue\":12\n}\n,\"P02774\":{\n\t\"loValue\":2\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":17\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":2\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":42\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":217\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":13\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":1\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":4\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":21\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":2\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":3\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":3\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":3\n}\n,\"P0C0L4\":{\n\t\"loValue\":16\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":35\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":12\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":16\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":1\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":18\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":13\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":2\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":9\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":2\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":1\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":14\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":2\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":1\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":3\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":1\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":1\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":1\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":1\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":1\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":1\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":2\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":3\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":5\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d6f87e4e-152e-332e-98dc-66f37af086fa.json b/test/data/enm/study-FCSV-d6f87e4e-152e-332e-98dc-66f37af086fa.json
new file mode 100644
index 0000000..0d6af99
--- /dev/null
+++ b/test/data/enm/study-FCSV-d6f87e4e-152e-332e-98dc-66f37af086fa.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-d6f87e4e-152e-332e-98dc-66f37af086fa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5.json b/test/data/enm/study-FCSV-d7038407-4445-3e9a-8d9b-22dfbdd6b998.json
index 332db78..332db78 100644
--- a/test/data/enm/study-FCSV-edc7f198-f391-328e-aa68-7d3f00b62af5.json
+++ b/test/data/enm/study-FCSV-d7038407-4445-3e9a-8d9b-22dfbdd6b998.json
diff --git a/test/data/enm/study-FCSV-d76101c0-f4f9-3f5b-9752-37946b8cc962.json b/test/data/enm/study-FCSV-d76101c0-f4f9-3f5b-9752-37946b8cc962.json
new file mode 100644
index 0000000..aa73c48
--- /dev/null
+++ b/test/data/enm/study-FCSV-d76101c0-f4f9-3f5b-9752-37946b8cc962.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-d76101c0-f4f9-3f5b-9752-37946b8cc962",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 239.381,
+        "errQualifier": "sd",
+        "errorValue": 16.632
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.044
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d7e266ac-6626-3d1b-8ec9-5d6fbb124577.json b/test/data/enm/study-FCSV-d7e266ac-6626-3d1b-8ec9-5d6fbb124577.json
new file mode 100644
index 0000000..b0d9f8f
--- /dev/null
+++ b/test/data/enm/study-FCSV-d7e266ac-6626-3d1b-8ec9-5d6fbb124577.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-d7e266ac-6626-3d1b-8ec9-5d6fbb124577",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2a853f39-424f-3a63-91f3-1300f85ebe73"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec.json b/test/data/enm/study-FCSV-d85a8061-1a69-349a-b291-25ef8b321043.json
index a6f6012..a6f6012 100644
--- a/test/data/enm/study-FCSV-0fe5f223-9c02-363c-a23c-70f1f36ffbec.json
+++ b/test/data/enm/study-FCSV-d85a8061-1a69-349a-b291-25ef8b321043.json
diff --git a/test/data/enm/study-FCSV-d8743dde-a7e3-3e5b-85eb-b21da70c37c8.json b/test/data/enm/study-FCSV-d8743dde-a7e3-3e5b-85eb-b21da70c37c8.json
new file mode 100644
index 0000000..5b9b128
--- /dev/null
+++ b/test/data/enm/study-FCSV-d8743dde-a7e3-3e5b-85eb-b21da70c37c8.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-d8743dde-a7e3-3e5b-85eb-b21da70c37c8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.282,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.378,
+        "errQualifier": "sd",
+        "errorValue": 0.076
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 542.67,
+        "errQualifier": "sd",
+        "errorValue": 0.21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-74492618-7ff6-39c9-b396-8d7465109083.json b/test/data/enm/study-FCSV-d8b05422-362d-30bc-aa07-c48fcb3b23e4.json
index e60a7d0..e60a7d0 100644
--- a/test/data/enm/study-FCSV-74492618-7ff6-39c9-b396-8d7465109083.json
+++ b/test/data/enm/study-FCSV-d8b05422-362d-30bc-aa07-c48fcb3b23e4.json
diff --git a/test/data/enm/study-FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18.json b/test/data/enm/study-FCSV-d8c65092-3340-3cdf-9dff-446f337f811b.json
index 0cfe63a..0cfe63a 100644
--- a/test/data/enm/study-FCSV-43f0ea59-aa2f-31d8-8d87-19c95ec9be18.json
+++ b/test/data/enm/study-FCSV-d8c65092-3340-3cdf-9dff-446f337f811b.json
diff --git a/test/data/enm/study-FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4.json b/test/data/enm/study-FCSV-d8c9c230-e6ef-3b50-afe8-0c7b5d5fd735.json
index bd9455e..bd9455e 100644
--- a/test/data/enm/study-FCSV-1f4a28c8-ecc6-342f-8cbf-1ed579dd34f4.json
+++ b/test/data/enm/study-FCSV-d8c9c230-e6ef-3b50-afe8-0c7b5d5fd735.json
diff --git a/test/data/enm/study-FCSV-d8dc0e19-1011-3405-81a4-cd7b79e4356e.json b/test/data/enm/study-FCSV-d8dc0e19-1011-3405-81a4-cd7b79e4356e.json
new file mode 100644
index 0000000..cf29bd3
--- /dev/null
+++ b/test/data/enm/study-FCSV-d8dc0e19-1011-3405-81a4-cd7b79e4356e.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-d8dc0e19-1011-3405-81a4-cd7b79e4356e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 261.392,
+        "errQualifier": "sd",
+        "errorValue": 6.832
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.043
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-06c1d24b-426b-39ec-8047-700808302325.json b/test/data/enm/study-FCSV-d8e4d507-da97-340c-9dfd-7af6c346f1f3.json
index 11b8b41..11b8b41 100644
--- a/test/data/enm/study-FCSV-06c1d24b-426b-39ec-8047-700808302325.json
+++ b/test/data/enm/study-FCSV-d8e4d507-da97-340c-9dfd-7af6c346f1f3.json
diff --git a/test/data/enm/study-FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2.json b/test/data/enm/study-FCSV-d9158cde-064f-37e7-a005-176277a768df.json
index 71e4265..71e4265 100644
--- a/test/data/enm/study-FCSV-9964d099-d8aa-3a89-863c-d69fc921bee2.json
+++ b/test/data/enm/study-FCSV-d9158cde-064f-37e7-a005-176277a768df.json
diff --git a/test/data/enm/study-FCSV-d9d7b341-b818-3238-9309-960d01b03966.json b/test/data/enm/study-FCSV-d9d7b341-b818-3238-9309-960d01b03966.json
new file mode 100644
index 0000000..6ed44e2
--- /dev/null
+++ b/test/data/enm/study-FCSV-d9d7b341-b818-3238-9309-960d01b03966.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-d9d7b341-b818-3238-9309-960d01b03966",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.017,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.862,
+        "errQualifier": "std",
+        "errorValue": 0.238
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-d9e8f8a4-6fff-356d-aed3-b65f55613092.json b/test/data/enm/study-FCSV-d9e8f8a4-6fff-356d-aed3-b65f55613092.json
new file mode 100644
index 0000000..232fb46
--- /dev/null
+++ b/test/data/enm/study-FCSV-d9e8f8a4-6fff-356d-aed3-b65f55613092.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-d9e8f8a4-6fff-356d-aed3-b65f55613092",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 962.673,
+        "errQualifier": "sd",
+        "errorValue": 37.465
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-da294c31-42f8-3126-8a04-2bbe33d3023a.json b/test/data/enm/study-FCSV-da294c31-42f8-3126-8a04-2bbe33d3023a.json
new file mode 100644
index 0000000..4853c2d
--- /dev/null
+++ b/test/data/enm/study-FCSV-da294c31-42f8-3126-8a04-2bbe33d3023a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-da294c31-42f8-3126-8a04-2bbe33d3023a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-da758505-71ff-34f3-ac22-00c81604766f.json b/test/data/enm/study-FCSV-da758505-71ff-34f3-ac22-00c81604766f.json
new file mode 100644
index 0000000..af424e2
--- /dev/null
+++ b/test/data/enm/study-FCSV-da758505-71ff-34f3-ac22-00c81604766f.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-da758505-71ff-34f3-ac22-00c81604766f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 19.23,
+        "errQualifier": "sd",
+        "errorValue": 3.75
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.03,
+        "errQualifier": "sd",
+        "errorValue": 3.97
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-dab7e7c2-3025-36d1-9a97-046b4cbfe387.json b/test/data/enm/study-FCSV-dab7e7c2-3025-36d1-9a97-046b4cbfe387.json
new file mode 100644
index 0000000..fbb187e
--- /dev/null
+++ b/test/data/enm/study-FCSV-dab7e7c2-3025-36d1-9a97-046b4cbfe387.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-dab7e7c2-3025-36d1-9a97-046b4cbfe387",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9294730f-3d55-36da-80b9-eb2df162e805"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 1.592,
+        "errQualifier": "sd",
+        "errorValue": 0.585
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-dad5bae8-5011-3abf-b912-65b618772efa.json b/test/data/enm/study-FCSV-dad5bae8-5011-3abf-b912-65b618772efa.json
new file mode 100644
index 0000000..2f96600
--- /dev/null
+++ b/test/data/enm/study-FCSV-dad5bae8-5011-3abf-b912-65b618772efa.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-dad5bae8-5011-3abf-b912-65b618772efa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6aea0743-7abb-3448-85ce-961b67fca97f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.274,
+        "errQualifier": "sd",
+        "errorValue": 0.507
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-daf67929-3542-3460-91d4-c0f9658c20b4.json b/test/data/enm/study-FCSV-daf67929-3542-3460-91d4-c0f9658c20b4.json
new file mode 100644
index 0000000..fee32e4
--- /dev/null
+++ b/test/data/enm/study-FCSV-daf67929-3542-3460-91d4-c0f9658c20b4.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-daf67929-3542-3460-91d4-c0f9658c20b4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 75.6,
+        "errQualifier": "sd",
+        "errorValue": 1.1
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 53.41,
+        "errQualifier": "sd",
+        "errorValue": 46.28
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.01,
+        "errQualifier": "sd",
+        "errorValue": 8.74
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.19,
+        "errQualifier": "sd",
+        "errorValue": 37.71
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 80.93,
+        "errQualifier": "sd",
+        "errorValue": 10.69
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33.97,
+        "errQualifier": "sd",
+        "errorValue": 33.7
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 80.93,
+        "errQualifier": "sd",
+        "errorValue": 1.07
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 57.9,
+        "errQualifier": "sd",
+        "errorValue": 50.14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-db1fd657-5fb0-35b1-b078-f251570b80f7.json b/test/data/enm/study-FCSV-db1fd657-5fb0-35b1-b078-f251570b80f7.json
new file mode 100644
index 0000000..7d907b0
--- /dev/null
+++ b/test/data/enm/study-FCSV-db1fd657-5fb0-35b1-b078-f251570b80f7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-db1fd657-5fb0-35b1-b078-f251570b80f7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.488,
+        "errQualifier": "sd",
+        "errorValue": 0.427
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-dbca7df2-2667-3094-a537-012c87f7c2a8.json b/test/data/enm/study-FCSV-dbca7df2-2667-3094-a537-012c87f7c2a8.json
new file mode 100644
index 0000000..ef1d031
--- /dev/null
+++ b/test/data/enm/study-FCSV-dbca7df2-2667-3094-a537-012c87f7c2a8.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-dbca7df2-2667-3094-a537-012c87f7c2a8",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":8\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":8\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":2\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":1\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":2\n}\n,\"P00451\":{\n\t\"loValue\":5\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":39\n}\n,\"P00736\":{\n\t\"loValue\":5\n}\n,\"P00738\":{\n\t\"loValue\":5\n}\n,\"P00739\":{\n\t\"loValue\":5\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":5\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":33\n}\n,\"P01009\":{\n\t\"loValue\":150\n}\n,\"P01011\":{\n\t\"loValue\":9\n}\n,\"P01019\":{\n\t\"loValue\":9\n}\n,\"P01023\":{\n\t\"loValue\":158\n}\n,\"P01024\":{\n\t\"loValue\":63\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":1\n}\n,\"P01764\":{\n\t\"loValue\":2\n}\n,\"P01765\":{\n\t\"loValue\":2\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":39\n}\n,\"P01857\":{\n\t\"loValue\":30\n}\n,\"P01859\":{\n\t\"loValue\":6\n}\n,\"P01860\":{\n\t\"loValue\":7\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":29\n}\n,\"P01876\":{\n\t\"loValue\":30\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":24\n}\n,\"P02649\":{\n\t\"loValue\":4\n}\n,\"P02652\":{\n\t\"loValue\":7\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":73\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":16\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":24\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":2\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":8\n}\n,\"P04004\":{\n\t\"loValue\":73\n}\n,\"P04070\":{\n\t\"loValue\":2\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":63\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":6\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":10\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":7\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":17\n}\n,\"P05155\":{\n\t\"loValue\":14\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":1\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":1\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":41\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":2\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":73\n}\n,\"P0C0L5\":{\n\t\"loValue\":13\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":2\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":16\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":5\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":2\n}\n,\"P16112\":{\n\t\"loValue\":5\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":231\n}\n,\"P19827\":{\n\t\"loValue\":211\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":1\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":2\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":23\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":2\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":127\n}\n,\"Q07507\":{\n\t\"loValue\":5\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":13\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":1\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":10\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":2\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":248\n}\n,\"Q14624\":{\n\t\"loValue\":15\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":1\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":2\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":2\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":1\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":1\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":1\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":1\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":4\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":1\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-dd5498ba-7787-3b4a-b5c3-358f78c7f7dc.json b/test/data/enm/study-FCSV-dd5498ba-7787-3b4a-b5c3-358f78c7f7dc.json
new file mode 100644
index 0000000..85cc784
--- /dev/null
+++ b/test/data/enm/study-FCSV-dd5498ba-7787-3b4a-b5c3-358f78c7f7dc.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-dd5498ba-7787-3b4a-b5c3-358f78c7f7dc",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.216,
+        "errQualifier": "sd",
+        "errorValue": 0.032
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.197,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7.json b/test/data/enm/study-FCSV-dd6c41c4-5b7c-3bdf-b0e9-8e15b77b2dce.json
index 576bdb7..576bdb7 100644
--- a/test/data/enm/study-FCSV-62d68a47-f27e-3d76-a7cf-5cacae221ec7.json
+++ b/test/data/enm/study-FCSV-dd6c41c4-5b7c-3bdf-b0e9-8e15b77b2dce.json
diff --git a/test/data/enm/study-FCSV-dd97debf-b900-39c3-9032-57bff884d762.json b/test/data/enm/study-FCSV-dd97debf-b900-39c3-9032-57bff884d762.json
new file mode 100644
index 0000000..e4ee569
--- /dev/null
+++ b/test/data/enm/study-FCSV-dd97debf-b900-39c3-9032-57bff884d762.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-dd97debf-b900-39c3-9032-57bff884d762",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1,2-dioleoyl-3-trimethylammonium-propane"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9294730f-3d55-36da-80b9-eb2df162e805.json b/test/data/enm/study-FCSV-dde1271e-4034-3c9c-88b1-fd9eada86b93.json
index fdae64b..fdae64b 100644
--- a/test/data/enm/study-FCSV-9294730f-3d55-36da-80b9-eb2df162e805.json
+++ b/test/data/enm/study-FCSV-dde1271e-4034-3c9c-88b1-fd9eada86b93.json
diff --git a/test/data/enm/study-FCSV-de1a44e3-f832-39e6-9e8e-b00f7c6b74fd.json b/test/data/enm/study-FCSV-de1a44e3-f832-39e6-9e8e-b00f7c6b74fd.json
new file mode 100644
index 0000000..22bb94c
--- /dev/null
+++ b/test/data/enm/study-FCSV-de1a44e3-f832-39e6-9e8e-b00f7c6b74fd.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-de1a44e3-f832-39e6-9e8e-b00f7c6b74fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 22.78,
+        "errQualifier": "sd",
+        "errorValue": 3.88
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -5.43,
+        "errQualifier": "sd",
+        "errorValue": 4.73
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d.json b/test/data/enm/study-FCSV-de678e5c-2a47-3cf6-99ed-3c5e936cfb6a.json
index 3a29c41..3a29c41 100644
--- a/test/data/enm/study-FCSV-ff7e8515-cfad-3d76-a918-d6eeab10a91d.json
+++ b/test/data/enm/study-FCSV-de678e5c-2a47-3cf6-99ed-3c5e936cfb6a.json
diff --git a/test/data/enm/study-FCSV-dea3be08-75cb-3c10-b445-c906715411b5.json b/test/data/enm/study-FCSV-dea3be08-75cb-3c10-b445-c906715411b5.json
new file mode 100644
index 0000000..6e01f0d
--- /dev/null
+++ b/test/data/enm/study-FCSV-dea3be08-75cb-3c10-b445-c906715411b5.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-dea3be08-75cb-3c10-b445-c906715411b5",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.01,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.611,
+        "errQualifier": "std",
+        "errorValue": 1.171
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ded39d52-c1ee-396a-83ce-97ce18551c1e.json b/test/data/enm/study-FCSV-ded39d52-c1ee-396a-83ce-97ce18551c1e.json
new file mode 100644
index 0000000..e51fafd
--- /dev/null
+++ b/test/data/enm/study-FCSV-ded39d52-c1ee-396a-83ce-97ce18551c1e.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-ded39d52-c1ee-396a-83ce-97ce18551c1e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.254,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.253,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.03,
+        "errQualifier": "sd",
+        "errorValue": 0.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-df20bc4f-07d8-3b02-96e9-2fef03b4ec6e.json b/test/data/enm/study-FCSV-df20bc4f-07d8-3b02-96e9-2fef03b4ec6e.json
new file mode 100644
index 0000000..0c6f7ac
--- /dev/null
+++ b/test/data/enm/study-FCSV-df20bc4f-07d8-3b02-96e9-2fef03b4ec6e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-df20bc4f-07d8-3b02-96e9-2fef03b4ec6e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.028,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.184,
+        "errQualifier": "std",
+        "errorValue": 0.867
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4.json b/test/data/enm/study-FCSV-df2955a3-9b7c-38ca-b5da-4ff12d824f64.json
index f75c3e6..f75c3e6 100644
--- a/test/data/enm/study-FCSV-bc488cf3-986d-34cf-9ee7-12f98873dfe4.json
+++ b/test/data/enm/study-FCSV-df2955a3-9b7c-38ca-b5da-4ff12d824f64.json
diff --git a/test/data/enm/study-FCSV-df4b175c-514d-35e0-b592-3e77d5b15c97.json b/test/data/enm/study-FCSV-df4b175c-514d-35e0-b592-3e77d5b15c97.json
new file mode 100644
index 0000000..2d02edd
--- /dev/null
+++ b/test/data/enm/study-FCSV-df4b175c-514d-35e0-b592-3e77d5b15c97.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-df4b175c-514d-35e0-b592-3e77d5b15c97",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":2\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":1\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":3\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":243\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":368\n}\n,\"P01009\":{\n\t\"loValue\":6\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":2\n}\n,\"P01024\":{\n\t\"loValue\":86\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":14\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":1\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":9\n}\n,\"P01857\":{\n\t\"loValue\":7\n}\n,\"P01859\":{\n\t\"loValue\":2\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":5\n}\n,\"P01876\":{\n\t\"loValue\":6\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":81\n}\n,\"P02649\":{\n\t\"loValue\":265\n}\n,\"P02652\":{\n\t\"loValue\":24\n}\n,\"P02654\":{\n\t\"loValue\":3\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":8\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":6\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":4\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":2\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":149\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":2\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":131\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":3\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":14\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":24\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":5\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":9\n}\n,\"P06732\":{\n\t\"loValue\":4\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":9\n}\n,\"P08697\":{\n\t\"loValue\":7\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":13\n}\n,\"P0C0L5\":{\n\t\"loValue\":2\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":2\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":4\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":10\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":8\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":3\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":5\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":27\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":2\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":20\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":7\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":3\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":16\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":1\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":1\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":3\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":2\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":29\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":7\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":2\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":1\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":1\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-df54e7ee-8b9d-3562-9043-8a5f05806361.json b/test/data/enm/study-FCSV-df54e7ee-8b9d-3562-9043-8a5f05806361.json
new file mode 100644
index 0000000..2a857f9
--- /dev/null
+++ b/test/data/enm/study-FCSV-df54e7ee-8b9d-3562-9043-8a5f05806361.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-df54e7ee-8b9d-3562-9043-8a5f05806361",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8619e6db-2c01-389e-b05b-e75273d18359"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.7,
+        "errQualifier": "sd",
+        "errorValue": 0.296
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -0.514,
+        "errQualifier": "std",
+        "errorValue": 0.609
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a.json b/test/data/enm/study-FCSV-df55da6c-2b4c-3f1f-98b7-8edf27c2a8ab.json
index e412698..e412698 100644
--- a/test/data/enm/study-FCSV-1c9a58a0-cd91-3636-8f7c-4fd886f8593a.json
+++ b/test/data/enm/study-FCSV-df55da6c-2b4c-3f1f-98b7-8edf27c2a8ab.json
diff --git a/test/data/enm/study-FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b.json b/test/data/enm/study-FCSV-df6e5051-0385-3760-9206-8108f9420cc8.json
index 34f27c5..34f27c5 100644
--- a/test/data/enm/study-FCSV-d1731b11-29a7-3b39-bf48-000a31d9c46b.json
+++ b/test/data/enm/study-FCSV-df6e5051-0385-3760-9206-8108f9420cc8.json
diff --git a/test/data/enm/study-FCSV-df81134b-f33f-3a8c-b188-78d518a69a72.json b/test/data/enm/study-FCSV-df81134b-f33f-3a8c-b188-78d518a69a72.json
new file mode 100644
index 0000000..eb7ebbc
--- /dev/null
+++ b/test/data/enm/study-FCSV-df81134b-f33f-3a8c-b188-78d518a69a72.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-df81134b-f33f-3a8c-b188-78d518a69a72",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 21.63,
+        "errQualifier": "sd",
+        "errorValue": 2.89
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -10.8,
+        "errQualifier": "sd",
+        "errorValue": 1.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0.json b/test/data/enm/study-FCSV-dfe2382d-caa7-3a9f-a395-b1da0a8204f4.json
index 002e8e0..002e8e0 100644
--- a/test/data/enm/study-FCSV-ee07f574-0b80-31db-b1f2-535f6d6626b0.json
+++ b/test/data/enm/study-FCSV-dfe2382d-caa7-3a9f-a395-b1da0a8204f4.json
diff --git a/test/data/enm/study-FCSV-e02c6059-2034-316a-9b86-f30d73861914.json b/test/data/enm/study-FCSV-e02c6059-2034-316a-9b86-f30d73861914.json
new file mode 100644
index 0000000..a99d81b
--- /dev/null
+++ b/test/data/enm/study-FCSV-e02c6059-2034-316a-9b86-f30d73861914.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-e02c6059-2034-316a-9b86-f30d73861914",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.323,
+        "errQualifier": "sd",
+        "errorValue": 0.025
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.631,
+        "errQualifier": "std",
+        "errorValue": 0.114
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e087252d-2511-3ef4-b8eb-187c11460f3f.json b/test/data/enm/study-FCSV-e087252d-2511-3ef4-b8eb-187c11460f3f.json
new file mode 100644
index 0000000..694204f
--- /dev/null
+++ b/test/data/enm/study-FCSV-e087252d-2511-3ef4-b8eb-187c11460f3f.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e087252d-2511-3ef4-b8eb-187c11460f3f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.274,
+        "errQualifier": "sd",
+        "errorValue": 0.118
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.379,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 540.77,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e087cfc3-52a3-38a9-a2ca-1c9b2dbbb06f.json b/test/data/enm/study-FCSV-e087cfc3-52a3-38a9-a2ca-1c9b2dbbb06f.json
new file mode 100644
index 0000000..853c510
--- /dev/null
+++ b/test/data/enm/study-FCSV-e087cfc3-52a3-38a9-a2ca-1c9b2dbbb06f.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-e087cfc3-52a3-38a9-a2ca-1c9b2dbbb06f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73.json b/test/data/enm/study-FCSV-e0c8d110-3cb0-33a6-b319-3b2ac6d4b705.json
index a96bd18..a96bd18 100644
--- a/test/data/enm/study-FCSV-98074b22-064e-3cd7-a732-f5fa3005fa73.json
+++ b/test/data/enm/study-FCSV-e0c8d110-3cb0-33a6-b319-3b2ac6d4b705.json
diff --git a/test/data/enm/study-FCSV-e0d66de3-cb23-3b51-b27a-54324d4fb98f.json b/test/data/enm/study-FCSV-e0d66de3-cb23-3b51-b27a-54324d4fb98f.json
new file mode 100644
index 0000000..f10c5bd
--- /dev/null
+++ b/test/data/enm/study-FCSV-e0d66de3-cb23-3b51-b27a-54324d4fb98f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-e0d66de3-cb23-3b51-b27a-54324d4fb98f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 5.361,
+        "errQualifier": "sd",
+        "errorValue": 1.138
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a.json b/test/data/enm/study-FCSV-e0fdf31b-bf9e-3d9a-970f-1fb13ed9b963.json
index f3be6b9..f3be6b9 100644
--- a/test/data/enm/study-FCSV-6b15ab65-c2d3-3e58-ac04-18d8e1d45a7a.json
+++ b/test/data/enm/study-FCSV-e0fdf31b-bf9e-3d9a-970f-1fb13ed9b963.json
diff --git a/test/data/enm/study-FCSV-e10ee022-607a-3de1-a09f-27b86e2c965c.json b/test/data/enm/study-FCSV-e10ee022-607a-3de1-a09f-27b86e2c965c.json
new file mode 100644
index 0000000..6e3433b
--- /dev/null
+++ b/test/data/enm/study-FCSV-e10ee022-607a-3de1-a09f-27b86e2c965c.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-e10ee022-607a-3de1-a09f-27b86e2c965c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": 7.17,
+        "errQualifier": "sd",
+        "errorValue": 8.48
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -3.77,
+        "errQualifier": "sd",
+        "errorValue": 3.37
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-47e98c51-7508-362f-84d3-494bb124b849.json b/test/data/enm/study-FCSV-e139a372-bb63-32da-bb83-6f6aa453c3d8.json
index 6c181e4..6c181e4 100644
--- a/test/data/enm/study-FCSV-47e98c51-7508-362f-84d3-494bb124b849.json
+++ b/test/data/enm/study-FCSV-e139a372-bb63-32da-bb83-6f6aa453c3d8.json
diff --git a/test/data/enm/study-FCSV-e163d83f-1d6e-3b22-95b1-15f94c23f4aa.json b/test/data/enm/study-FCSV-e163d83f-1d6e-3b22-95b1-15f94c23f4aa.json
new file mode 100644
index 0000000..632af48
--- /dev/null
+++ b/test/data/enm/study-FCSV-e163d83f-1d6e-3b22-95b1-15f94c23f4aa.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-e163d83f-1d6e-3b22-95b1-15f94c23f4aa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e1683cee-61fa-3cd2-a5a6-4ac763a1533d.json b/test/data/enm/study-FCSV-e1683cee-61fa-3cd2-a5a6-4ac763a1533d.json
new file mode 100644
index 0000000..53da36d
--- /dev/null
+++ b/test/data/enm/study-FCSV-e1683cee-61fa-3cd2-a5a6-4ac763a1533d.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e1683cee-61fa-3cd2-a5a6-4ac763a1533d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.326,
+        "errQualifier": "sd",
+        "errorValue": 0.078
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.366,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.9,
+        "errQualifier": "sd",
+        "errorValue": 1.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e19a3766-9961-3dae-961c-54bcbada12c1.json b/test/data/enm/study-FCSV-e19a3766-9961-3dae-961c-54bcbada12c1.json
new file mode 100644
index 0000000..32f99b5
--- /dev/null
+++ b/test/data/enm/study-FCSV-e19a3766-9961-3dae-961c-54bcbada12c1.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-e19a3766-9961-3dae-961c-54bcbada12c1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.568,
+        "errQualifier": "sd",
+        "errorValue": 0.437
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e1aa918e-77e7-38e6-a95b-7babc9fc2093.json b/test/data/enm/study-FCSV-e1aa918e-77e7-38e6-a95b-7babc9fc2093.json
new file mode 100644
index 0000000..a2cfd5f
--- /dev/null
+++ b/test/data/enm/study-FCSV-e1aa918e-77e7-38e6-a95b-7babc9fc2093.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-e1aa918e-77e7-38e6-a95b-7babc9fc2093",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 29.87,
+        "errQualifier": "sd",
+        "errorValue": 13.95
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 67.7,
+        "errQualifier": "sd",
+        "errorValue": 4.57
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 32.13,
+        "errQualifier": "sd",
+        "errorValue": 22.42
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.71,
+        "errQualifier": "sd",
+        "errorValue": 8.68
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.65,
+        "errQualifier": "sd",
+        "errorValue": 1.56
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20.54,
+        "errQualifier": "sd",
+        "errorValue": 6.06
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 55.65,
+        "errQualifier": "sd",
+        "errorValue": 31.99
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 84.29,
+        "errQualifier": "sd",
+        "errorValue": 3.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e1bf8278-a84e-3f14-a0e6-ac52d2086e90.json b/test/data/enm/study-FCSV-e1bf8278-a84e-3f14-a0e6-ac52d2086e90.json
new file mode 100644
index 0000000..5ae29bc
--- /dev/null
+++ b/test/data/enm/study-FCSV-e1bf8278-a84e-3f14-a0e6-ac52d2086e90.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e1bf8278-a84e-3f14-a0e6-ac52d2086e90",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.249,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.343,
+        "errQualifier": "sd",
+        "errorValue": 0.023
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 525.63,
+        "errQualifier": "sd",
+        "errorValue": 0.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e1e099b5-a15b-3788-ad63-49c687c75547.json b/test/data/enm/study-FCSV-e1e099b5-a15b-3788-ad63-49c687c75547.json
new file mode 100644
index 0000000..89b605c
--- /dev/null
+++ b/test/data/enm/study-FCSV-e1e099b5-a15b-3788-ad63-49c687c75547.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-e1e099b5-a15b-3788-ad63-49c687c75547",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Mercaptoethanesulfonate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22.json b/test/data/enm/study-FCSV-e1e65abf-3026-31e8-8bf9-3afa8a4220e0.json
index f88f266..f88f266 100644
--- a/test/data/enm/study-FCSV-4026a85b-f254-3d35-bd77-c634d38e4a22.json
+++ b/test/data/enm/study-FCSV-e1e65abf-3026-31e8-8bf9-3afa8a4220e0.json
diff --git a/test/data/enm/study-FCSV-e279979f-a064-384e-bb64-2bb88ca883d9.json b/test/data/enm/study-FCSV-e279979f-a064-384e-bb64-2bb88ca883d9.json
new file mode 100644
index 0000000..280abc0
--- /dev/null
+++ b/test/data/enm/study-FCSV-e279979f-a064-384e-bb64-2bb88ca883d9.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e279979f-a064-384e-bb64-2bb88ca883d9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.273,
+        "errQualifier": "sd",
+        "errorValue": 0.007
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.435,
+        "errQualifier": "sd",
+        "errorValue": 0.052
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 542,
+        "errQualifier": "sd",
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401.json b/test/data/enm/study-FCSV-e30c1169-808c-3bad-a229-875911f8ad16.json
index 738b987..738b987 100644
--- a/test/data/enm/study-FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401.json
+++ b/test/data/enm/study-FCSV-e30c1169-808c-3bad-a229-875911f8ad16.json
diff --git a/test/data/enm/study-FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1.json b/test/data/enm/study-FCSV-e326ad5a-c2f7-38be-8130-5de15d3f6699.json
index 19a76e6..19a76e6 100644
--- a/test/data/enm/study-FCSV-8b5b62c3-7fd2-3bba-b293-b7537e4971b1.json
+++ b/test/data/enm/study-FCSV-e326ad5a-c2f7-38be-8130-5de15d3f6699.json
diff --git a/test/data/enm/study-FCSV-e339ae7e-feaf-30ab-8214-af9adb52e835.json b/test/data/enm/study-FCSV-e339ae7e-feaf-30ab-8214-af9adb52e835.json
new file mode 100644
index 0000000..2ada738
--- /dev/null
+++ b/test/data/enm/study-FCSV-e339ae7e-feaf-30ab-8214-af9adb52e835.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-e339ae7e-feaf-30ab-8214-af9adb52e835",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e34eb9a1-fc40-3126-b05b-c88d9ea0b7d2.json b/test/data/enm/study-FCSV-e34eb9a1-fc40-3126-b05b-c88d9ea0b7d2.json
new file mode 100644
index 0000000..5136641
--- /dev/null
+++ b/test/data/enm/study-FCSV-e34eb9a1-fc40-3126-b05b-c88d9ea0b7d2.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-e34eb9a1-fc40-3126-b05b-c88d9ea0b7d2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":9\n}\n,\"O00148\":{\n\t\"loValue\":1\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":9\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":2\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":27\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":61\n}\n,\"P00736\":{\n\t\"loValue\":26\n}\n,\"P00738\":{\n\t\"loValue\":6\n}\n,\"P00739\":{\n\t\"loValue\":14\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":4\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":6\n}\n,\"P01008\":{\n\t\"loValue\":122\n}\n,\"P01009\":{\n\t\"loValue\":27\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":1\n}\n,\"P01023\":{\n\t\"loValue\":32\n}\n,\"P01024\":{\n\t\"loValue\":179\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":93\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":3\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":2\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":1\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":33\n}\n,\"P01857\":{\n\t\"loValue\":23\n}\n,\"P01859\":{\n\t\"loValue\":8\n}\n,\"P01860\":{\n\t\"loValue\":10\n}\n,\"P01861\":{\n\t\"loValue\":2\n}\n,\"P01871\":{\n\t\"loValue\":23\n}\n,\"P01876\":{\n\t\"loValue\":56\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":67\n}\n,\"P02649\":{\n\t\"loValue\":61\n}\n,\"P02652\":{\n\t\"loValue\":15\n}\n,\"P02654\":{\n\t\"loValue\":19\n}\n,\"P02655\":{\n\t\"loValue\":6\n}\n,\"P02656\":{\n\t\"loValue\":31\n}\n,\"P02671\":{\n\t\"loValue\":4\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":22\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":3\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":10\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":1\n}\n,\"P02763\":{\n\t\"loValue\":1\n}\n,\"P02765\":{\n\t\"loValue\":9\n}\n,\"P02766\":{\n\t\"loValue\":6\n}\n,\"P02774\":{\n\t\"loValue\":3\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":20\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":7\n}\n,\"P03952\":{\n\t\"loValue\":32\n}\n,\"P04003\":{\n\t\"loValue\":4\n}\n,\"P04004\":{\n\t\"loValue\":46\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":115\n}\n,\"P04180\":{\n\t\"loValue\":14\n}\n,\"P04196\":{\n\t\"loValue\":21\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":2\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":6\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":33\n}\n,\"P05155\":{\n\t\"loValue\":15\n}\n,\"P05156\":{\n\t\"loValue\":4\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":2\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":20\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":1\n}\n,\"P08603\":{\n\t\"loValue\":98\n}\n,\"P08697\":{\n\t\"loValue\":9\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":15\n}\n,\"P0C0L4\":{\n\t\"loValue\":103\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":18\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":136\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":4\n}\n,\"P12259\":{\n\t\"loValue\":23\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":5\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":24\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":12\n}\n,\"P19827\":{\n\t\"loValue\":3\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":3\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":4\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":51\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":30\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":1\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":1\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":19\n}\n,\"P55058\":{\n\t\"loValue\":1\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":10\n}\n,\"P69905\":{\n\t\"loValue\":5\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":3\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":1\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":8\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":10\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":5\n}\n,\"Q14624\":{\n\t\"loValue\":300\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":7\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":3\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":1\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":56\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":1\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":3\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e35304f2-bab5-307c-a2b7-3526a1c01213.json b/test/data/enm/study-FCSV-e35304f2-bab5-307c-a2b7-3526a1c01213.json
new file mode 100644
index 0000000..3b760c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-e35304f2-bab5-307c-a2b7-3526a1c01213.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e35304f2-bab5-307c-a2b7-3526a1c01213",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.25,
+        "errQualifier": "sd",
+        "errorValue": 0.059
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.419,
+        "errQualifier": "sd",
+        "errorValue": 0.017
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 521.84,
+        "errQualifier": "sd",
+        "errorValue": 0.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e4051f2e-a5be-3f3d-941c-b534f6c7e4fd.json b/test/data/enm/study-FCSV-e4051f2e-a5be-3f3d-941c-b534f6c7e4fd.json
new file mode 100644
index 0000000..d2710a0
--- /dev/null
+++ b/test/data/enm/study-FCSV-e4051f2e-a5be-3f3d-941c-b534f6c7e4fd.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-e4051f2e-a5be-3f3d-941c-b534f6c7e4fd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.001,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -9.671,
+        "errQualifier": "std",
+        "errorValue": 2.499
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e4f80d25-1ca8-3c62-99ca-7601eb8db2cb.json b/test/data/enm/study-FCSV-e4f80d25-1ca8-3c62-99ca-7601eb8db2cb.json
new file mode 100644
index 0000000..2d0655d
--- /dev/null
+++ b/test/data/enm/study-FCSV-e4f80d25-1ca8-3c62-99ca-7601eb8db2cb.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-e4f80d25-1ca8-3c62-99ca-7601eb8db2cb",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 34.96,
+        "errQualifier": "sd",
+        "errorValue": 2.24
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 44.75,
+        "errQualifier": "sd",
+        "errorValue": 12.66
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 96.53,
+        "errQualifier": "sd",
+        "errorValue": 111.18
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.93,
+        "errQualifier": "sd",
+        "errorValue": 1.71
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65.69,
+        "errQualifier": "sd",
+        "errorValue": 1.24
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.8,
+        "errQualifier": "sd",
+        "errorValue": 0.7
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65.69,
+        "errQualifier": "sd",
+        "errorValue": 52.04
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 64.33,
+        "errQualifier": "sd",
+        "errorValue": 21.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892.json b/test/data/enm/study-FCSV-e5071ff9-35a7-3c23-bd2c-6c48072da49d.json
index e388910..e388910 100644
--- a/test/data/enm/study-FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892.json
+++ b/test/data/enm/study-FCSV-e5071ff9-35a7-3c23-bd2c-6c48072da49d.json
diff --git a/test/data/enm/study-FCSV-e584fefc-e12b-3c4a-90f4-c5e388c9b646.json b/test/data/enm/study-FCSV-e584fefc-e12b-3c4a-90f4-c5e388c9b646.json
new file mode 100644
index 0000000..7f9855f
--- /dev/null
+++ b/test/data/enm/study-FCSV-e584fefc-e12b-3c4a-90f4-c5e388c9b646.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e584fefc-e12b-3c4a-90f4-c5e388c9b646",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.235,
+        "errQualifier": "sd",
+        "errorValue": 0.035
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.259,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 520.03,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e59c040d-e9d2-3fbd-a258-85d7f2f4834e.json b/test/data/enm/study-FCSV-e59c040d-e9d2-3fbd-a258-85d7f2f4834e.json
new file mode 100644
index 0000000..694a16e
--- /dev/null
+++ b/test/data/enm/study-FCSV-e59c040d-e9d2-3fbd-a258-85d7f2f4834e.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-e59c040d-e9d2-3fbd-a258-85d7f2f4834e",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.31,
+        "errQualifier": "sd",
+        "errorValue": 0.065
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -1.691,
+        "errQualifier": "std",
+        "errorValue": 0.302
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e5b2fe0b-f166-3e71-8f59-277fb116c18a.json b/test/data/enm/study-FCSV-e5b2fe0b-f166-3e71-8f59-277fb116c18a.json
new file mode 100644
index 0000000..6a1cc31
--- /dev/null
+++ b/test/data/enm/study-FCSV-e5b2fe0b-f166-3e71-8f59-277fb116c18a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-e5b2fe0b-f166-3e71-8f59-277fb116c18a",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":0\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":7\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":1\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":99\n}\n,\"P01009\":{\n\t\"loValue\":4\n}\n,\"P01011\":{\n\t\"loValue\":4\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":3\n}\n,\"P01024\":{\n\t\"loValue\":9\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":9\n}\n,\"P01857\":{\n\t\"loValue\":0\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":0\n}\n,\"P01876\":{\n\t\"loValue\":0\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":0\n}\n,\"P02649\":{\n\t\"loValue\":3\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":8\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":6\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":0\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":3\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":2\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":0\n}\n,\"P0C0L5\":{\n\t\"loValue\":0\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":0\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":1\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":2\n}\n,\"Q14624\":{\n\t\"loValue\":0\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-5c14595c-0e23-3f37-aaad-9988eba09196.json b/test/data/enm/study-FCSV-e5b47b68-6418-3d77-9262-b2c83423985d.json
index 77b4ba5..77b4ba5 100644
--- a/test/data/enm/study-FCSV-5c14595c-0e23-3f37-aaad-9988eba09196.json
+++ b/test/data/enm/study-FCSV-e5b47b68-6418-3d77-9262-b2c83423985d.json
diff --git a/test/data/enm/study-FCSV-e5d53a21-7973-3808-a71f-d583ff966da2.json b/test/data/enm/study-FCSV-e5d53a21-7973-3808-a71f-d583ff966da2.json
new file mode 100644
index 0000000..a30eff8
--- /dev/null
+++ b/test/data/enm/study-FCSV-e5d53a21-7973-3808-a71f-d583ff966da2.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e5d53a21-7973-3808-a71f-d583ff966da2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.232,
+        "errQualifier": "sd",
+        "errorValue": 0.01
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.294,
+        "errQualifier": "sd",
+        "errorValue": 0.061
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.9,
+        "errQualifier": "sd",
+        "errorValue": 0.35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e60c3939-0b0d-3a79-a095-cd17c0b1a1f3.json b/test/data/enm/study-FCSV-e60c3939-0b0d-3a79-a095-cd17c0b1a1f3.json
new file mode 100644
index 0000000..376e999
--- /dev/null
+++ b/test/data/enm/study-FCSV-e60c3939-0b0d-3a79-a095-cd17c0b1a1f3.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-e60c3939-0b0d-3a79-a095-cd17c0b1a1f3",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.02,
+        "errQualifier": "sd",
+        "errorValue": 0.004
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -5.676,
+        "errQualifier": "std",
+        "errorValue": 0.326
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e681bfc1-9fa1-383b-81f6-cb3b87f25cb4.json b/test/data/enm/study-FCSV-e681bfc1-9fa1-383b-81f6-cb3b87f25cb4.json
new file mode 100644
index 0000000..4b69277
--- /dev/null
+++ b/test/data/enm/study-FCSV-e681bfc1-9fa1-383b-81f6-cb3b87f25cb4.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-e681bfc1-9fa1-383b-81f6-cb3b87f25cb4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.212,
+        "errQualifier": "sd",
+        "errorValue": 0.061
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.382,
+        "errQualifier": "sd",
+        "errorValue": 0.029
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 523.27,
+        "errQualifier": "sd",
+        "errorValue": 0.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82.json b/test/data/enm/study-FCSV-e75b2536-884a-319d-93f8-3b9bc4c47c63.json
index eca8789..eca8789 100644
--- a/test/data/enm/study-FCSV-f3d54c07-7dd4-3124-b5bf-341eb9eb4e82.json
+++ b/test/data/enm/study-FCSV-e75b2536-884a-319d-93f8-3b9bc4c47c63.json
diff --git a/test/data/enm/study-FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5.json b/test/data/enm/study-FCSV-e7611960-09bf-3fdc-98c5-f773f4d71ad7.json
index 8bd32e9..8bd32e9 100644
--- a/test/data/enm/study-FCSV-7c42c2b4-dcbe-39a4-ae4e-0f0c41a7a5a5.json
+++ b/test/data/enm/study-FCSV-e7611960-09bf-3fdc-98c5-f773f4d71ad7.json
diff --git a/test/data/enm/study-FCSV-e76cba39-0623-3722-8b18-f65048858ef2.json b/test/data/enm/study-FCSV-e76cba39-0623-3722-8b18-f65048858ef2.json
new file mode 100644
index 0000000..7657662
--- /dev/null
+++ b/test/data/enm/study-FCSV-e76cba39-0623-3722-8b18-f65048858ef2.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-e76cba39-0623-3722-8b18-f65048858ef2",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 15.6,
+        "errQualifier": "sd",
+        "errorValue": 1.43
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.7,
+        "errQualifier": "sd",
+        "errorValue": 9.77
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 2.75,
+        "errQualifier": "sd",
+        "errorValue": 0.93
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.66,
+        "errQualifier": "sd",
+        "errorValue": 62.47
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.99,
+        "errQualifier": "sd",
+        "errorValue": 0.75
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17.68,
+        "errQualifier": "sd",
+        "errorValue": 6.07
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.99,
+        "errQualifier": "sd",
+        "errorValue": 7.94
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 105.1,
+        "errQualifier": "sd",
+        "errorValue": 38.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e7823c45-5d2e-31ec-9d26-a6c0847f9d7c.json b/test/data/enm/study-FCSV-e7823c45-5d2e-31ec-9d26-a6c0847f9d7c.json
new file mode 100644
index 0000000..09d6c09
--- /dev/null
+++ b/test/data/enm/study-FCSV-e7823c45-5d2e-31ec-9d26-a6c0847f9d7c.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-e7823c45-5d2e-31ec-9d26-a6c0847f9d7c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465.json b/test/data/enm/study-FCSV-e7871bf5-2b01-30f7-9fd9-572515a34fac.json
index 7f1db85..7f1db85 100644
--- a/test/data/enm/study-FCSV-0d5c0fc7-de56-3507-b651-1c91bf030465.json
+++ b/test/data/enm/study-FCSV-e7871bf5-2b01-30f7-9fd9-572515a34fac.json
diff --git a/test/data/enm/study-FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d.json b/test/data/enm/study-FCSV-e7972493-1040-372a-9786-2cd28899bde3.json
index a59f346..a59f346 100644
--- a/test/data/enm/study-FCSV-bfa499a9-7d1a-34da-bccf-4fc30c65f03d.json
+++ b/test/data/enm/study-FCSV-e7972493-1040-372a-9786-2cd28899bde3.json
diff --git a/test/data/enm/study-FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172.json b/test/data/enm/study-FCSV-e7bb66a7-d701-3f0a-8b7b-1bd85346ef10.json
index 49ec67b..49ec67b 100644
--- a/test/data/enm/study-FCSV-ffe19c9e-b1a1-3f38-a149-0d587fc5b172.json
+++ b/test/data/enm/study-FCSV-e7bb66a7-d701-3f0a-8b7b-1bd85346ef10.json
diff --git a/test/data/enm/study-FCSV-e7d2cf35-b34a-3a13-8dbc-bc7e40b1ac2d.json b/test/data/enm/study-FCSV-e7d2cf35-b34a-3a13-8dbc-bc7e40b1ac2d.json
new file mode 100644
index 0000000..9186c64
--- /dev/null
+++ b/test/data/enm/study-FCSV-e7d2cf35-b34a-3a13-8dbc-bc7e40b1ac2d.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-e7d2cf35-b34a-3a13-8dbc-bc7e40b1ac2d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "2-Naphthalenethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "(4'-aminoacetophenone)-modified poly(styrene-co-maleic anhydride)"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-770a2d39-1509-3c93-b28f-1d3e345de450.json b/test/data/enm/study-FCSV-e7ded596-b99d-37dc-975d-2d9d35bac338.json
index 7baa59b..7baa59b 100644
--- a/test/data/enm/study-FCSV-770a2d39-1509-3c93-b28f-1d3e345de450.json
+++ b/test/data/enm/study-FCSV-e7ded596-b99d-37dc-975d-2d9d35bac338.json
diff --git a/test/data/enm/study-FCSV-9c9a7234-a74f-326f-a134-79e004c1f687.json b/test/data/enm/study-FCSV-e7ef4a21-1bde-3010-aa12-a018d911cc4f.json
index efd4d87..efd4d87 100644
--- a/test/data/enm/study-FCSV-9c9a7234-a74f-326f-a134-79e004c1f687.json
+++ b/test/data/enm/study-FCSV-e7ef4a21-1bde-3010-aa12-a018d911cc4f.json
diff --git a/test/data/enm/study-FCSV-e81d3b28-8a8e-372b-9b53-9196ea67df2f.json b/test/data/enm/study-FCSV-e81d3b28-8a8e-372b-9b53-9196ea67df2f.json
new file mode 100644
index 0000000..f46bd21
--- /dev/null
+++ b/test/data/enm/study-FCSV-e81d3b28-8a8e-372b-9b53-9196ea67df2f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-e81d3b28-8a8e-372b-9b53-9196ea67df2f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c2bce3a6-e09a-3fdc-a1f5-2281b22bb892"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":1\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":3\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":1\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":1\n}\n,\"P00736\":{\n\t\"loValue\":3\n}\n,\"P00738\":{\n\t\"loValue\":3\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":3\n}\n,\"P01009\":{\n\t\"loValue\":27\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":4\n}\n,\"P01024\":{\n\t\"loValue\":95\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":9\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":3\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":1\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":1\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":22\n}\n,\"P01857\":{\n\t\"loValue\":20\n}\n,\"P01859\":{\n\t\"loValue\":7\n}\n,\"P01860\":{\n\t\"loValue\":3\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":34\n}\n,\"P01876\":{\n\t\"loValue\":17\n}\n,\"P01877\":{\n\t\"loValue\":1\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":18\n}\n,\"P02649\":{\n\t\"loValue\":10\n}\n,\"P02652\":{\n\t\"loValue\":0\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":1\n}\n,\"P02656\":{\n\t\"loValue\":1\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":0\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":2\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":27\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":3\n}\n,\"P02766\":{\n\t\"loValue\":11\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":7\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":2\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":1\n}\n,\"P04004\":{\n\t\"loValue\":5\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":15\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":16\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":3\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":1\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":2\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":2\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":9\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":12\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":4\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":1\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":2\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":2\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":2\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":3\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":10\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":1\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":1\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":2\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":1\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e832825b-13bd-3480-a703-20f468c2a4c4.json b/test/data/enm/study-FCSV-e832825b-13bd-3480-a703-20f468c2a4c4.json
new file mode 100644
index 0000000..5925527
--- /dev/null
+++ b/test/data/enm/study-FCSV-e832825b-13bd-3480-a703-20f468c2a4c4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-e832825b-13bd-3480-a703-20f468c2a4c4",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":117\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":29\n}\n,\"P00742\":{\n\t\"loValue\":57\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":208\n}\n,\"P01009\":{\n\t\"loValue\":9\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":18\n}\n,\"P01024\":{\n\t\"loValue\":109\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":194\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":1\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":17\n}\n,\"P01857\":{\n\t\"loValue\":10\n}\n,\"P01859\":{\n\t\"loValue\":0\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":7\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":13\n}\n,\"P02649\":{\n\t\"loValue\":75\n}\n,\"P02652\":{\n\t\"loValue\":4\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":6\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":3\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":3\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":4\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":74\n}\n,\"P03952\":{\n\t\"loValue\":24\n}\n,\"P04003\":{\n\t\"loValue\":14\n}\n,\"P04004\":{\n\t\"loValue\":147\n}\n,\"P04070\":{\n\t\"loValue\":28\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":5\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":64\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":18\n}\n,\"P05155\":{\n\t\"loValue\":5\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":7\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":6\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":25\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":3\n}\n,\"P08709\":{\n\t\"loValue\":10\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":38\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":8\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":3\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":4\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":1\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":2\n}\n,\"P22891\":{\n\t\"loValue\":5\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":3\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":4\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":32\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":5\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":4\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":1\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2.json b/test/data/enm/study-FCSV-e85722df-5306-36c4-8574-35d4cbd566a5.json
index 93d48b3..93d48b3 100644
--- a/test/data/enm/study-FCSV-6d5b38c4-f57f-31de-b8b4-2719792f82f2.json
+++ b/test/data/enm/study-FCSV-e85722df-5306-36c4-8574-35d4cbd566a5.json
diff --git a/test/data/enm/study-FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65.json b/test/data/enm/study-FCSV-e8686db7-c2de-3795-a6e5-106ae8c7adb6.json
index e59fc13..e59fc13 100644
--- a/test/data/enm/study-FCSV-cb2f11a0-4af8-318b-8a60-3908f45c2e65.json
+++ b/test/data/enm/study-FCSV-e8686db7-c2de-3795-a6e5-106ae8c7adb6.json
diff --git a/test/data/enm/study-FCSV-e8a18130-f808-346e-b2f9-635dcb80870b.json b/test/data/enm/study-FCSV-e8a18130-f808-346e-b2f9-635dcb80870b.json
new file mode 100644
index 0000000..76368c0
--- /dev/null
+++ b/test/data/enm/study-FCSV-e8a18130-f808-346e-b2f9-635dcb80870b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-e8a18130-f808-346e-b2f9-635dcb80870b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389.json b/test/data/enm/study-FCSV-e8ec3254-be67-3fd4-a213-2ec7f347172f.json
index f4af14e..f4af14e 100644
--- a/test/data/enm/study-FCSV-8a45dec8-a551-33cc-a7ac-7750d9f30389.json
+++ b/test/data/enm/study-FCSV-e8ec3254-be67-3fd4-a213-2ec7f347172f.json
diff --git a/test/data/enm/study-FCSV-e8ff74ab-fd58-3d4b-8a10-0e1e34804324.json b/test/data/enm/study-FCSV-e8ff74ab-fd58-3d4b-8a10-0e1e34804324.json
new file mode 100644
index 0000000..df62c11
--- /dev/null
+++ b/test/data/enm/study-FCSV-e8ff74ab-fd58-3d4b-8a10-0e1e34804324.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-e8ff74ab-fd58-3d4b-8a10-0e1e34804324",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-93c29ebf-e80e-354c-893f-923385c72858.json b/test/data/enm/study-FCSV-e90eda89-9947-3902-b951-dfd82bcc5e75.json
index ed04fee..ed04fee 100644
--- a/test/data/enm/study-FCSV-93c29ebf-e80e-354c-893f-923385c72858.json
+++ b/test/data/enm/study-FCSV-e90eda89-9947-3902-b951-dfd82bcc5e75.json
diff --git a/test/data/enm/study-FCSV-e9491bb4-e18c-3f7c-a633-3a877f0b2771.json b/test/data/enm/study-FCSV-e9491bb4-e18c-3f7c-a633-3a877f0b2771.json
new file mode 100644
index 0000000..4ce9201
--- /dev/null
+++ b/test/data/enm/study-FCSV-e9491bb4-e18c-3f7c-a633-3a877f0b2771.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-e9491bb4-e18c-3f7c-a633-3a877f0b2771",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e96c5ac1-9320-317a-9fd3-4319d8606498.json b/test/data/enm/study-FCSV-e96c5ac1-9320-317a-9fd3-4319d8606498.json
new file mode 100644
index 0000000..c1ecfc6
--- /dev/null
+++ b/test/data/enm/study-FCSV-e96c5ac1-9320-317a-9fd3-4319d8606498.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-e96c5ac1-9320-317a-9fd3-4319d8606498",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 22.45,
+        "errQualifier": "sd",
+        "errorValue": 3.67
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.09,
+        "errQualifier": "sd",
+        "errorValue": 2.21
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.44,
+        "errQualifier": "sd",
+        "errorValue": 1.96
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 96.56,
+        "errQualifier": "sd",
+        "errorValue": 74.56
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.75,
+        "errQualifier": "sd",
+        "errorValue": 0.39
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40.22,
+        "errQualifier": "sd",
+        "errorValue": 0.4
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39.75,
+        "errQualifier": "sd",
+        "errorValue": 24.93
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 84.19,
+        "errQualifier": "sd",
+        "errorValue": 43.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-e98a0914-318b-3a36-996b-dd2dff1dc911.json b/test/data/enm/study-FCSV-e98a0914-318b-3a36-996b-dd2dff1dc911.json
new file mode 100644
index 0000000..8991196
--- /dev/null
+++ b/test/data/enm/study-FCSV-e98a0914-318b-3a36-996b-dd2dff1dc911.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-e98a0914-318b-3a36-996b-dd2dff1dc911",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-70406142-0fd6-30bd-873b-5cce39016ed5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242.json b/test/data/enm/study-FCSV-e9c24201-2e88-31b2-81b5-b6b352493777.json
index 61ad395..61ad395 100644
--- a/test/data/enm/study-FCSV-4dd1bf89-e885-3128-abe2-9a87fbbd0242.json
+++ b/test/data/enm/study-FCSV-e9c24201-2e88-31b2-81b5-b6b352493777.json
diff --git a/test/data/enm/study-FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421.json b/test/data/enm/study-FCSV-ea0d9762-d05d-3e13-95bd-b2ff3f376679.json
index 7ecb0ce..7ecb0ce 100644
--- a/test/data/enm/study-FCSV-cd7105f2-f630-360e-b8dc-ff42b18bb421.json
+++ b/test/data/enm/study-FCSV-ea0d9762-d05d-3e13-95bd-b2ff3f376679.json
diff --git a/test/data/enm/study-FCSV-ea4deeaa-563c-3169-8cd5-a64a41dea48b.json b/test/data/enm/study-FCSV-ea4deeaa-563c-3169-8cd5-a64a41dea48b.json
new file mode 100644
index 0000000..2c13257
--- /dev/null
+++ b/test/data/enm/study-FCSV-ea4deeaa-563c-3169-8cd5-a64a41dea48b.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-ea4deeaa-563c-3169-8cd5-a64a41dea48b",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 78.47,
+        "errQualifier": "sd",
+        "errorValue": 1.65
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 94.45,
+        "errQualifier": "sd",
+        "errorValue": 3.26
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 63.26,
+        "errQualifier": "sd",
+        "errorValue": 12.38
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 89.7,
+        "errQualifier": "sd",
+        "errorValue": 6.08
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 85.49,
+        "errQualifier": "sd",
+        "errorValue": 15.47
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79.84,
+        "errQualifier": "sd",
+        "errorValue": 11.1
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 85.49,
+        "errQualifier": "sd",
+        "errorValue": 1.59
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 100.92,
+        "errQualifier": "sd",
+        "errorValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ea5c5fb6-37f9-3e24-a3a3-d5627ae9cf1d.json b/test/data/enm/study-FCSV-ea5c5fb6-37f9-3e24-a3a3-d5627ae9cf1d.json
new file mode 100644
index 0000000..a1644e6
--- /dev/null
+++ b/test/data/enm/study-FCSV-ea5c5fb6-37f9-3e24-a3a3-d5627ae9cf1d.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-ea5c5fb6-37f9-3e24-a3a3-d5627ae9cf1d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 242.478,
+        "errQualifier": "sd",
+        "errorValue": 1.237
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 10,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.027
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ea8b1423-e454-3451-993f-293c388b3bd7.json b/test/data/enm/study-FCSV-ea8b1423-e454-3451-993f-293c388b3bd7.json
new file mode 100644
index 0000000..525d766
--- /dev/null
+++ b/test/data/enm/study-FCSV-ea8b1423-e454-3451-993f-293c388b3bd7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-ea8b1423-e454-3451-993f-293c388b3bd7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.08,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-eac16429-ad44-3079-9396-587113221564.json b/test/data/enm/study-FCSV-eac16429-ad44-3079-9396-587113221564.json
new file mode 100644
index 0000000..4c77d86
--- /dev/null
+++ b/test/data/enm/study-FCSV-eac16429-ad44-3079-9396-587113221564.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-eac16429-ad44-3079-9396-587113221564",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "16-Mercaptohexadecanoic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55.json b/test/data/enm/study-FCSV-eae8a666-a3e8-300e-a14c-46cc6044e208.json
index 3cedd63..3cedd63 100644
--- a/test/data/enm/study-FCSV-206b1a13-e02a-38a0-88ec-d5a8bfdabc55.json
+++ b/test/data/enm/study-FCSV-eae8a666-a3e8-300e-a14c-46cc6044e208.json
diff --git a/test/data/enm/study-FCSV-eb3a8d74-14f7-3a40-8ae5-01502b103623.json b/test/data/enm/study-FCSV-eb3a8d74-14f7-3a40-8ae5-01502b103623.json
new file mode 100644
index 0000000..9606be5
--- /dev/null
+++ b/test/data/enm/study-FCSV-eb3a8d74-14f7-3a40-8ae5-01502b103623.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-eb3a8d74-14f7-3a40-8ae5-01502b103623",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.015,
+        "errQualifier": "sd",
+        "errorValue": 0.016
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -6.083,
+        "errQualifier": "std",
+        "errorValue": 1.605
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-eb41e4dc-3dac-30ae-b8ad-2b4cae4100c6.json b/test/data/enm/study-FCSV-eb41e4dc-3dac-30ae-b8ad-2b4cae4100c6.json
new file mode 100644
index 0000000..ee071ab
--- /dev/null
+++ b/test/data/enm/study-FCSV-eb41e4dc-3dac-30ae-b8ad-2b4cae4100c6.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-eb41e4dc-3dac-30ae-b8ad-2b4cae4100c6",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 3.47,
+        "errQualifier": "sd",
+        "errorValue": 0.37
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616.json b/test/data/enm/study-FCSV-eb88bf67-f3e9-318f-9fa0-3b77937ffb3b.json
index 9b35ac1..9b35ac1 100644
--- a/test/data/enm/study-FCSV-8f0e4035-24d4-3a81-b20b-bd156f210616.json
+++ b/test/data/enm/study-FCSV-eb88bf67-f3e9-318f-9fa0-3b77937ffb3b.json
diff --git a/test/data/enm/study-FCSV-eb9c5657-ba3f-32e0-9d33-fb6380491848.json b/test/data/enm/study-FCSV-eb9c5657-ba3f-32e0-9d33-fb6380491848.json
new file mode 100644
index 0000000..f449b21
--- /dev/null
+++ b/test/data/enm/study-FCSV-eb9c5657-ba3f-32e0-9d33-fb6380491848.json
@@ -0,0 +1,80 @@
+{
+  "uuid": "FCSV-eb9c5657-ba3f-32e0-9d33-fb6380491848",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "1-Dodecanethiol"
+      }
+    },
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "benzyldimethylhexadecylammonium bromide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a.json b/test/data/enm/study-FCSV-ebbffbd5-cd8a-3fb3-9fa7-aa8f45b36cbd.json
index b5a96d3..b5a96d3 100644
--- a/test/data/enm/study-FCSV-9cc7dd73-d27f-35a0-a3f1-81a18429b76a.json
+++ b/test/data/enm/study-FCSV-ebbffbd5-cd8a-3fb3-9fa7-aa8f45b36cbd.json
diff --git a/test/data/enm/study-FCSV-ebc69225-39ab-3067-805b-5a7f7ece1faa.json b/test/data/enm/study-FCSV-ebc69225-39ab-3067-805b-5a7f7ece1faa.json
new file mode 100644
index 0000000..a07f7f2
--- /dev/null
+++ b/test/data/enm/study-FCSV-ebc69225-39ab-3067-805b-5a7f7ece1faa.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-ebc69225-39ab-3067-805b-5a7f7ece1faa",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 2.173,
+        "errQualifier": "sd",
+        "errorValue": 0.875
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ec2c22ea-630e-3903-8727-dad4e248db61.json b/test/data/enm/study-FCSV-ec2c22ea-630e-3903-8727-dad4e248db61.json
new file mode 100644
index 0000000..690790e
--- /dev/null
+++ b/test/data/enm/study-FCSV-ec2c22ea-630e-3903-8727-dad4e248db61.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ec2c22ea-630e-3903-8727-dad4e248db61",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ec5f984c-6550-3f0c-b272-d76d4868264c.json b/test/data/enm/study-FCSV-ec5f984c-6550-3f0c-b272-d76d4868264c.json
new file mode 100644
index 0000000..c85d309
--- /dev/null
+++ b/test/data/enm/study-FCSV-ec5f984c-6550-3f0c-b272-d76d4868264c.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ec5f984c-6550-3f0c-b272-d76d4868264c",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.061,
+        "errQualifier": "sd",
+        "errorValue": 0.003
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.038,
+        "errQualifier": "sd",
+        "errorValue": 0.028
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ecc74fea-7795-3227-8805-a97dab091524.json b/test/data/enm/study-FCSV-ecc74fea-7795-3227-8805-a97dab091524.json
new file mode 100644
index 0000000..7419b46
--- /dev/null
+++ b/test/data/enm/study-FCSV-ecc74fea-7795-3227-8805-a97dab091524.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-ecc74fea-7795-3227-8805-a97dab091524",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ecdd3eb0-068c-31cd-9300-31ec0f02902d.json b/test/data/enm/study-FCSV-ecdd3eb0-068c-31cd-9300-31ec0f02902d.json
new file mode 100644
index 0000000..da060ac
--- /dev/null
+++ b/test/data/enm/study-FCSV-ecdd3eb0-068c-31cd-9300-31ec0f02902d.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-ecdd3eb0-068c-31cd-9300-31ec0f02902d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-1842b3a2-413c-327c-a07a-9905269bafb5"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.056,
+        "errQualifier": "sd",
+        "errorValue": 0.04
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -4.146,
+        "errQualifier": "std",
+        "errorValue": 1.026
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-ed3375a4-029a-3960-8120-5fc0a1a4edfd.json b/test/data/enm/study-FCSV-ed3375a4-029a-3960-8120-5fc0a1a4edfd.json
new file mode 100644
index 0000000..2a8e3e2
--- /dev/null
+++ b/test/data/enm/study-FCSV-ed3375a4-029a-3960-8120-5fc0a1a4edfd.json
@@ -0,0 +1,77 @@
+{
+  "uuid": "FCSV-ed3375a4-029a-3960-8120-5fc0a1a4edfd",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": " ",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -4.78,
+        "errQualifier": "sd",
+        "errorValue": 4.48
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "mean",
+        "loValue": -7.95,
+        "errQualifier": "sd",
+        "errorValue": 3.14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-edd88a40-2c5c-33b1-9df5-20deb4a0d026.json b/test/data/enm/study-FCSV-edd88a40-2c5c-33b1-9df5-20deb4a0d026.json
new file mode 100644
index 0000000..2ceeeb3
--- /dev/null
+++ b/test/data/enm/study-FCSV-edd88a40-2c5c-33b1-9df5-20deb4a0d026.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-edd88a40-2c5c-33b1-9df5-20deb4a0d026",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 14.9,
+        "errQualifier": "sd",
+        "errorValue": 1.2
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6.json b/test/data/enm/study-FCSV-ef00af8e-6601-3a9e-9acb-5bac7bcfe71e.json
index 0c03721..0c03721 100644
--- a/test/data/enm/study-FCSV-63da0f0e-51b8-3c56-b5d3-d4e0e9fb06a6.json
+++ b/test/data/enm/study-FCSV-ef00af8e-6601-3a9e-9acb-5bac7bcfe71e.json
diff --git a/test/data/enm/study-FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd.json b/test/data/enm/study-FCSV-ef550668-e0d5-3c92-92e8-eccf38cafbe8.json
index 6ccf7e4..6ccf7e4 100644
--- a/test/data/enm/study-FCSV-9043e884-a5ba-3fa6-a103-dee0c7b1b3dd.json
+++ b/test/data/enm/study-FCSV-ef550668-e0d5-3c92-92e8-eccf38cafbe8.json
diff --git a/test/data/enm/study-FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f.json b/test/data/enm/study-FCSV-ef9748ad-771e-35a4-98a8-5f9f429b42b5.json
index bf3ca09..bf3ca09 100644
--- a/test/data/enm/study-FCSV-ef28f16c-6ab1-3d8b-b971-37c08688701f.json
+++ b/test/data/enm/study-FCSV-ef9748ad-771e-35a4-98a8-5f9f429b42b5.json
diff --git a/test/data/enm/study-FCSV-efaff5b4-0956-3c49-bb4d-a0b558140d67.json b/test/data/enm/study-FCSV-efaff5b4-0956-3c49-bb4d-a0b558140d67.json
new file mode 100644
index 0000000..96664a6
--- /dev/null
+++ b/test/data/enm/study-FCSV-efaff5b4-0956-3c49-bb4d-a0b558140d67.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-efaff5b4-0956-3c49-bb4d-a0b558140d67",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 31.6,
+        "errQualifier": "sd",
+        "errorValue": 3.8
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6.json b/test/data/enm/study-FCSV-f02a92e5-ec5a-368c-a276-4aa421c17d84.json
index 6a76d0d..6a76d0d 100644
--- a/test/data/enm/study-FCSV-6ed95128-c2b8-3cfe-a0b4-29d2b06c6bc6.json
+++ b/test/data/enm/study-FCSV-f02a92e5-ec5a-368c-a276-4aa421c17d84.json
diff --git a/test/data/enm/study-FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b.json b/test/data/enm/study-FCSV-f065d547-ff21-3c10-b507-d37143c230c4.json
index 312cbd1..312cbd1 100644
--- a/test/data/enm/study-FCSV-b228fc7b-c407-368a-bc1c-359c7375bb9b.json
+++ b/test/data/enm/study-FCSV-f065d547-ff21-3c10-b507-d37143c230c4.json
diff --git a/test/data/enm/study-FCSV-f0a8f01e-cafc-3783-a596-8e77bf7ddf80.json b/test/data/enm/study-FCSV-f0a8f01e-cafc-3783-a596-8e77bf7ddf80.json
new file mode 100644
index 0000000..3556cb8
--- /dev/null
+++ b/test/data/enm/study-FCSV-f0a8f01e-cafc-3783-a596-8e77bf7ddf80.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-f0a8f01e-cafc-3783-a596-8e77bf7ddf80",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "3-Mercaptopropionic acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f0fc18dc-271f-3be6-93a1-a48041b27164.json b/test/data/enm/study-FCSV-f0fc18dc-271f-3be6-93a1-a48041b27164.json
new file mode 100644
index 0000000..8097c73
--- /dev/null
+++ b/test/data/enm/study-FCSV-f0fc18dc-271f-3be6-93a1-a48041b27164.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-f0fc18dc-271f-3be6-93a1-a48041b27164",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "FUNCTIONAL GROUP",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "FUNCTIONALIZATION"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "N-Acetyl-L-cysteine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee.json b/test/data/enm/study-FCSV-f110f33c-d64f-3a2d-a037-15ac30c1c6c1.json
index 06c62b0..06c62b0 100644
--- a/test/data/enm/study-FCSV-8f5cd32a-3350-300b-91d0-87000ee5d7ee.json
+++ b/test/data/enm/study-FCSV-f110f33c-d64f-3a2d-a037-15ac30c1c6c1.json
diff --git a/test/data/enm/study-FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75.json b/test/data/enm/study-FCSV-f133447c-3dfe-371b-b333-9617ccf98fe5.json
index f6ee292..f6ee292 100644
--- a/test/data/enm/study-FCSV-6d8b8701-7fca-3936-a45e-66c17012fc75.json
+++ b/test/data/enm/study-FCSV-f133447c-3dfe-371b-b333-9617ccf98fe5.json
diff --git a/test/data/enm/study-FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a.json b/test/data/enm/study-FCSV-f1762c51-9d5c-3bf3-a581-6b7c4b0c3dcc.json
index c537f45..c537f45 100644
--- a/test/data/enm/study-FCSV-ed95bb69-9fa7-3a4a-b4a4-32dd947d4d1a.json
+++ b/test/data/enm/study-FCSV-f1762c51-9d5c-3bf3-a581-6b7c4b0c3dcc.json
diff --git a/test/data/enm/study-FCSV-f1cb23f6-9776-31fe-9053-6c697ebdba64.json b/test/data/enm/study-FCSV-f1cb23f6-9776-31fe-9053-6c697ebdba64.json
new file mode 100644
index 0000000..1f68f50
--- /dev/null
+++ b/test/data/enm/study-FCSV-f1cb23f6-9776-31fe-9053-6c697ebdba64.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-f1cb23f6-9776-31fe-9053-6c697ebdba64",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":1\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":7\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":1\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":8\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":1\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":5\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":1\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":2\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":3\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":262\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":3\n}\n,\"P00740\":{\n\t\"loValue\":41\n}\n,\"P00742\":{\n\t\"loValue\":87\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":30\n}\n,\"P01009\":{\n\t\"loValue\":50\n}\n,\"P01011\":{\n\t\"loValue\":2\n}\n,\"P01019\":{\n\t\"loValue\":7\n}\n,\"P01023\":{\n\t\"loValue\":57\n}\n,\"P01024\":{\n\t\"loValue\":41\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":0\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":2\n}\n,\"P01593\":{\n\t\"loValue\":2\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":1\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":2\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":1\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":1\n}\n,\"P01765\":{\n\t\"loValue\":1\n}\n,\"P01766\":{\n\t\"loValue\":2\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":37\n}\n,\"P01857\":{\n\t\"loValue\":33\n}\n,\"P01859\":{\n\t\"loValue\":4\n}\n,\"P01860\":{\n\t\"loValue\":5\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":31\n}\n,\"P01876\":{\n\t\"loValue\":28\n}\n,\"P01877\":{\n\t\"loValue\":2\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":7\n}\n,\"P02649\":{\n\t\"loValue\":3\n}\n,\"P02652\":{\n\t\"loValue\":4\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":2\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":31\n}\n,\"P02743\":{\n\t\"loValue\":2\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":1\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":4\n}\n,\"P02760\":{\n\t\"loValue\":45\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":14\n}\n,\"P02774\":{\n\t\"loValue\":1\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":1\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":0\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":175\n}\n,\"P04004\":{\n\t\"loValue\":84\n}\n,\"P04070\":{\n\t\"loValue\":47\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":2\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":3\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":11\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":6\n}\n,\"P05155\":{\n\t\"loValue\":5\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":64\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":41\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":3\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":1\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":24\n}\n,\"P08709\":{\n\t\"loValue\":2\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":97\n}\n,\"P0C0L5\":{\n\t\"loValue\":12\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":10\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":1\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":19\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":21\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":4\n}\n,\"P13667\":{\n\t\"loValue\":1\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":4\n}\n,\"P14543\":{\n\t\"loValue\":1\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":7\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":2\n}\n,\"P16827\":{\n\t\"loValue\":1\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":178\n}\n,\"P19827\":{\n\t\"loValue\":131\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":8\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":26\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":11\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":26\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":1\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":2\n}\n,\"P49747\":{\n\t\"loValue\":27\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":1\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":2\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":1\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":1\n}\n,\"P68871\":{\n\t\"loValue\":1\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":1\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":78\n}\n,\"Q07507\":{\n\t\"loValue\":2\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":5\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":12\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":1\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":1\n}\n,\"Q14393\":{\n\t\"loValue\":2\n}\n,\"Q14515\":{\n\t\"loValue\":4\n}\n,\"Q14520\":{\n\t\"loValue\":135\n}\n,\"Q14624\":{\n\t\"loValue\":9\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":1\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":1\n}\n,\"Q49A26\":{\n\t\"loValue\":1\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":2\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":2\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":1\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":1\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":1\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":1\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":1\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":1\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":1\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":1\n}\n,\"Q9NUB4\":{\n\t\"loValue\":1\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":1\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":1\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":1\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":6\n}\n,\"Q9UK59\":{\n\t\"loValue\":1\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":1\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":1\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":1\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":1\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f1fb7819-16e8-3c90-a7f3-d1a6bcd0ba37.json b/test/data/enm/study-FCSV-f1fb7819-16e8-3c90-a7f3-d1a6bcd0ba37.json
new file mode 100644
index 0000000..70a998f
--- /dev/null
+++ b/test/data/enm/study-FCSV-f1fb7819-16e8-3c90-a7f3-d1a6bcd0ba37.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-f1fb7819-16e8-3c90-a7f3-d1a6bcd0ba37",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-a153cba3-a82d-3e3c-bcbd-335cc5155f44"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 268.117,
+        "errQualifier": "sd",
+        "errorValue": 2.341
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 0.0
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 1,
+        "errQualifier": "sem",
+        "errorValue": 0.05
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65.json b/test/data/enm/study-FCSV-f283b181-a562-3cd5-b56e-d468ea6c007f.json
index b740b85..b740b85 100644
--- a/test/data/enm/study-FCSV-07ecc16e-528e-3904-bb96-0812dff8ea65.json
+++ b/test/data/enm/study-FCSV-f283b181-a562-3cd5-b56e-d468ea6c007f.json
diff --git a/test/data/enm/study-FCSV-f2d1d273-db93-3e6a-8026-96b5379831a0.json b/test/data/enm/study-FCSV-f2d1d273-db93-3e6a-8026-96b5379831a0.json
new file mode 100644
index 0000000..9accdf2
--- /dev/null
+++ b/test/data/enm/study-FCSV-f2d1d273-db93-3e6a-8026-96b5379831a0.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-f2d1d273-db93-3e6a-8026-96b5379831a0",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":1\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":0\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":68\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":2\n}\n,\"P00740\":{\n\t\"loValue\":15\n}\n,\"P00742\":{\n\t\"loValue\":61\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":65\n}\n,\"P01009\":{\n\t\"loValue\":8\n}\n,\"P01011\":{\n\t\"loValue\":3\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":9\n}\n,\"P01024\":{\n\t\"loValue\":13\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":26\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":0\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":2\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":3\n}\n,\"P01857\":{\n\t\"loValue\":5\n}\n,\"P01859\":{\n\t\"loValue\":3\n}\n,\"P01860\":{\n\t\"loValue\":0\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":14\n}\n,\"P01876\":{\n\t\"loValue\":0\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":0\n}\n,\"P02649\":{\n\t\"loValue\":21\n}\n,\"P02652\":{\n\t\"loValue\":1\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":40\n}\n,\"P02745\":{\n\t\"loValue\":2\n}\n,\"P02746\":{\n\t\"loValue\":1\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":1\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":0\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":3\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":0\n}\n,\"P03951\":{\n\t\"loValue\":4\n}\n,\"P03952\":{\n\t\"loValue\":0\n}\n,\"P04003\":{\n\t\"loValue\":163\n}\n,\"P04004\":{\n\t\"loValue\":17\n}\n,\"P04070\":{\n\t\"loValue\":4\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":6\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":2\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":3\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":0\n}\n,\"P05155\":{\n\t\"loValue\":1\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":0\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":0\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":46\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":0\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":0\n}\n,\"P08697\":{\n\t\"loValue\":1\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":16\n}\n,\"P0C0L5\":{\n\t\"loValue\":3\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":0\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":0\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":0\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":0\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":0\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":0\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":2\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":8\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":0\n}\n,\"P22891\":{\n\t\"loValue\":8\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":1\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":0\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":0\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":0\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":0\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":5\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":1\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":1\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":0\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":0\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":0\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a.json b/test/data/enm/study-FCSV-f358d269-7746-371c-9339-2fd233e014b2.json
index a5d2996..a5d2996 100644
--- a/test/data/enm/study-FCSV-acbbde2e-0238-3d4c-a2f4-7629ad478e6a.json
+++ b/test/data/enm/study-FCSV-f358d269-7746-371c-9339-2fd233e014b2.json
diff --git a/test/data/enm/study-FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72.json b/test/data/enm/study-FCSV-f38d9966-0662-3d66-9518-fdc41a8c765a.json
index 689d234..689d234 100644
--- a/test/data/enm/study-FCSV-c4fe20ba-de05-36c2-9842-5433ce33bd72.json
+++ b/test/data/enm/study-FCSV-f38d9966-0662-3d66-9518-fdc41a8c765a.json
diff --git a/test/data/enm/study-FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4.json b/test/data/enm/study-FCSV-f4140b2c-a916-3d24-b8e5-25a6fa9ba4a6.json
index 0246966..0246966 100644
--- a/test/data/enm/study-FCSV-6405ef25-683e-3763-a4e3-f56eb93174e4.json
+++ b/test/data/enm/study-FCSV-f4140b2c-a916-3d24-b8e5-25a6fa9ba4a6.json
diff --git a/test/data/enm/study-FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a.json b/test/data/enm/study-FCSV-f44fa8f7-9326-337c-bab3-4bf63447a9ca.json
index d937d57..d937d57 100644
--- a/test/data/enm/study-FCSV-2b9a077f-bef3-3ffd-a83a-77dd85db129a.json
+++ b/test/data/enm/study-FCSV-f44fa8f7-9326-337c-bab3-4bf63447a9ca.json
diff --git a/test/data/enm/study-FCSV-f466449d-9305-39ff-9e8b-9e2d95b68274.json b/test/data/enm/study-FCSV-f466449d-9305-39ff-9e8b-9e2d95b68274.json
new file mode 100644
index 0000000..2f53c1f
--- /dev/null
+++ b/test/data/enm/study-FCSV-f466449d-9305-39ff-9e8b-9e2d95b68274.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-f466449d-9305-39ff-9e8b-9e2d95b68274",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.281,
+        "errQualifier": "sd",
+        "errorValue": 0.09
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.449,
+        "errQualifier": "sd",
+        "errorValue": 0.102
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 518.4,
+        "errQualifier": "sd",
+        "errorValue": 0.35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f47625f0-1cb1-3800-b0cf-24e2da8ab652.json b/test/data/enm/study-FCSV-f47625f0-1cb1-3800-b0cf-24e2da8ab652.json
new file mode 100644
index 0000000..32231cb
--- /dev/null
+++ b/test/data/enm/study-FCSV-f47625f0-1cb1-3800-b0cf-24e2da8ab652.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "FCSV-f47625f0-1cb1-3800-b0cf-24e2da8ab652",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Bicinchoninic Acid (BCA) Assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Total protein (BCA assay)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug",
+        "loQualifier": "mean",
+        "loValue": 0.288,
+        "errQualifier": "sd",
+        "errorValue": 0.472
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f508360e-9b3c-3c48-a41a-47924a1d5061.json b/test/data/enm/study-FCSV-f508360e-9b3c-3c48-a41a-47924a1d5061.json
new file mode 100644
index 0000000..dc025c5
--- /dev/null
+++ b/test/data/enm/study-FCSV-f508360e-9b3c-3c48-a41a-47924a1d5061.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-f508360e-9b3c-3c48-a41a-47924a1d5061",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.081,
+        "errQualifier": "sd",
+        "errorValue": 0.022
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.144,
+        "errQualifier": "sd",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f55c4239-29fe-3303-ac58-b96b99dc2c3d.json b/test/data/enm/study-FCSV-f55c4239-29fe-3303-ac58-b96b99dc2c3d.json
new file mode 100644
index 0000000..138dbf3
--- /dev/null
+++ b/test/data/enm/study-FCSV-f55c4239-29fe-3303-ac58-b96b99dc2c3d.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-f55c4239-29fe-3303-ac58-b96b99dc2c3d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-80a36fc5-9a73-358c-829b-2e69eea82125"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f59dae02-6546-3871-90d4-22400760b161.json b/test/data/enm/study-FCSV-f59dae02-6546-3871-90d4-22400760b161.json
new file mode 100644
index 0000000..c9fab7d
--- /dev/null
+++ b/test/data/enm/study-FCSV-f59dae02-6546-3871-90d4-22400760b161.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-f59dae02-6546-3871-90d4-22400760b161",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "ICP-AES",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Perkin-Elmer",
+    "Type of method": "ICP-AES",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Net cell association",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "mL/ug(Mg)",
+        "loQualifier": "mean",
+        "loValue": 0.00083,
+        "errQualifier": "sd",
+        "errorValue": 0.001
+      }
+    },
+    {
+      "endpoint": "Log2 transformed",
+      "conditions": {
+        "Cell": "A549"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": -10.228,
+        "errQualifier": "std",
+        "errorValue": 2.04
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f5c13490-63ee-336e-9a25-5999e72f8f77.json b/test/data/enm/study-FCSV-f5c13490-63ee-336e-9a25-5999e72f8f77.json
new file mode 100644
index 0000000..9e58413
--- /dev/null
+++ b/test/data/enm/study-FCSV-f5c13490-63ee-336e-9a25-5999e72f8f77.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-f5c13490-63ee-336e-9a25-5999e72f8f77",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 21.59,
+        "errQualifier": "sd",
+        "errorValue": 1.14
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 48.66,
+        "errQualifier": "sd",
+        "errorValue": 1.99
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22.22,
+        "errQualifier": "sd",
+        "errorValue": 3.15
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.99,
+        "errQualifier": "sd",
+        "errorValue": 3.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 48.43,
+        "errQualifier": "sd",
+        "errorValue": 2.15
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42.63,
+        "errQualifier": "sd",
+        "errorValue": 3.92
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 48.43,
+        "errQualifier": "sd",
+        "errorValue": 41.33
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 52.06,
+        "errQualifier": "sd",
+        "errorValue": 2.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9.json b/test/data/enm/study-FCSV-f5d6422c-d681-3567-ba37-8d2d0aff732d.json
index 3699329..3699329 100644
--- a/test/data/enm/study-FCSV-31bd6c7b-3247-3db9-93b6-59e0d3ecefa9.json
+++ b/test/data/enm/study-FCSV-f5d6422c-d681-3567-ba37-8d2d0aff732d.json
diff --git a/test/data/enm/study-FCSV-f5d79ce0-419d-3157-9b4d-0fe063f383ad.json b/test/data/enm/study-FCSV-f5d79ce0-419d-3157-9b4d-0fe063f383ad.json
new file mode 100644
index 0000000..502df6f
--- /dev/null
+++ b/test/data/enm/study-FCSV-f5d79ce0-419d-3157-9b4d-0fe063f383ad.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-f5d79ce0-419d-3157-9b4d-0fe063f383ad",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f62472d9-41a4-3392-9760-109961cbda7f.json b/test/data/enm/study-FCSV-f62472d9-41a4-3392-9760-109961cbda7f.json
new file mode 100644
index 0000000..263b0a1
--- /dev/null
+++ b/test/data/enm/study-FCSV-f62472d9-41a4-3392-9760-109961cbda7f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "FCSV-f62472d9-41a4-3392-9760-109961cbda7f",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "PROTEOMICS_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "8.100 Proteomics"
+    },
+    "endpoint": "Solution-based digestion protocol for serum protein isolates",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Orbitrap-Velos mass spectrometer (Thermo)",
+    "Type of method": "LC MS/MS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Spectral counts",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "textValue": "{\"A2VDJ0\":{\n\t\"loValue\":0\n}\n,\"A6NE01\":{\n\t\"loValue\":0\n}\n,\"A6NL26\":{\n\t\"loValue\":0\n}\n,\"A7E2F4\":{\n\t\"loValue\":0\n}\n,\"A8MTI9\":{\n\t\"loValue\":0\n}\n,\"A8MVM7\":{\n\t\"loValue\":0\n}\n,\"A9YTQ3\":{\n\t\"loValue\":0\n}\n,\"B1ANY3\":{\n\t\"loValue\":0\n}\n,\"B1NKR3\":{\n\t\"loValue\":0\n}\n,\"B2RXH2\":{\n\t\"loValue\":0\n}\n,\"B9A064\":{\n\t\"loValue\":4\n}\n,\"O00148\":{\n\t\"loValue\":0\n}\n,\"O00167\":{\n\t\"loValue\":0\n}\n,\"O00187\":{\n\t\"loValue\":0\n}\n,\"O00391\":{\n\t\"loValue\":0\n}\n,\"O00507\":{\n\t\"loValue\":0\n}\n,\"O00512\":{\n\t\"loValue\":0\n}\n,\"O00555\":{\n\t\"loValue\":0\n}\n,\"O00602\":{\n\t\"loValue\":0\n}\n,\"O14497\":{\n\t\"loValue\":0\n}\n,\"O14523\":{\n\t\"loValue\":0\n}\n,\"O14734\":{\n\t\"loValue\":0\n}\n,\"O14786\":{\n\t\"loValue\":0\n}\n,\"O14791\":{\n\t\"loValue\":0\n}\n,\"O14983\":{\n\t\"loValue\":0\n}\n,\"O15117\":{\n\t\"loValue\":0\n}\n,\"O15213\":{\n\t\"loValue\":0\n}\n,\"O15355\":{\n\t\"loValue\":0\n}\n,\"O15446\":{\n\t\"loValue\":0\n}\n,\"O15503\":{\n\t\"loValue\":0\n}\n,\"O40626\":{\n\t\"loValue\":0\n}\n,\"O43155\":{\n\t\"loValue\":0\n}\n,\"O43194\":{\n\t\"loValue\":0\n}\n,\"O43426\":{\n\t\"loValue\":0\n}\n,\"O43681\":{\n\t\"loValue\":0\n}\n,\"O43866\":{\n\t\"loValue\":0\n}\n,\"O43889\":{\n\t\"loValue\":0\n}\n,\"O60462\":{\n\t\"loValue\":0\n}\n,\"O60518\":{\n\t\"loValue\":0\n}\n,\"O75051\":{\n\t\"loValue\":0\n}\n,\"O75052\":{\n\t\"loValue\":0\n}\n,\"O75309\":{\n\t\"loValue\":0\n}\n,\"O75356\":{\n\t\"loValue\":0\n}\n,\"O75367\":{\n\t\"loValue\":0\n}\n,\"O75427\":{\n\t\"loValue\":0\n}\n,\"O75636\":{\n\t\"loValue\":0\n}\n,\"O75915\":{\n\t\"loValue\":0\n}\n,\"O75943\":{\n\t\"loValue\":0\n}\n,\"O75970\":{\n\t\"loValue\":0\n}\n,\"O75976\":{\n\t\"loValue\":0\n}\n,\"O76036\":{\n\t\"loValue\":0\n}\n,\"O91087\":{\n\t\"loValue\":0\n}\n,\"O91734\":{\n\t\"loValue\":0\n}\n,\"O94812\":{\n\t\"loValue\":2\n}\n,\"O94813\":{\n\t\"loValue\":0\n}\n,\"O94900\":{\n\t\"loValue\":0\n}\n,\"O94985\":{\n\t\"loValue\":0\n}\n,\"O95221\":{\n\t\"loValue\":0\n}\n,\"O95342\":{\n\t\"loValue\":0\n}\n,\"O95445\":{\n\t\"loValue\":0\n}\n,\"O95466\":{\n\t\"loValue\":0\n}\n,\"O95486\":{\n\t\"loValue\":0\n}\n,\"O95810\":{\n\t\"loValue\":0\n}\n,\"O95847\":{\n\t\"loValue\":0\n}\n,\"P00450\":{\n\t\"loValue\":0\n}\n,\"P00451\":{\n\t\"loValue\":0\n}\n,\"P00558\":{\n\t\"loValue\":0\n}\n,\"P00734\":{\n\t\"loValue\":264\n}\n,\"P00736\":{\n\t\"loValue\":0\n}\n,\"P00738\":{\n\t\"loValue\":0\n}\n,\"P00739\":{\n\t\"loValue\":0\n}\n,\"P00740\":{\n\t\"loValue\":0\n}\n,\"P00742\":{\n\t\"loValue\":0\n}\n,\"P00746\":{\n\t\"loValue\":0\n}\n,\"P00747\":{\n\t\"loValue\":0\n}\n,\"P00748\":{\n\t\"loValue\":0\n}\n,\"P00751\":{\n\t\"loValue\":0\n}\n,\"P01008\":{\n\t\"loValue\":266\n}\n,\"P01009\":{\n\t\"loValue\":1\n}\n,\"P01011\":{\n\t\"loValue\":0\n}\n,\"P01019\":{\n\t\"loValue\":0\n}\n,\"P01023\":{\n\t\"loValue\":4\n}\n,\"P01024\":{\n\t\"loValue\":71\n}\n,\"P01031\":{\n\t\"loValue\":0\n}\n,\"P01034\":{\n\t\"loValue\":0\n}\n,\"P01042\":{\n\t\"loValue\":189\n}\n,\"P01266\":{\n\t\"loValue\":0\n}\n,\"P01344\":{\n\t\"loValue\":0\n}\n,\"P01591\":{\n\t\"loValue\":0\n}\n,\"P01593\":{\n\t\"loValue\":0\n}\n,\"P01594\":{\n\t\"loValue\":0\n}\n,\"P01596\":{\n\t\"loValue\":0\n}\n,\"P01597\":{\n\t\"loValue\":0\n}\n,\"P01599\":{\n\t\"loValue\":0\n}\n,\"P01605\":{\n\t\"loValue\":0\n}\n,\"P01610\":{\n\t\"loValue\":0\n}\n,\"P01611\":{\n\t\"loValue\":0\n}\n,\"P01613\":{\n\t\"loValue\":0\n}\n,\"P01614\":{\n\t\"loValue\":0\n}\n,\"P01617\":{\n\t\"loValue\":0\n}\n,\"P01619\":{\n\t\"loValue\":0\n}\n,\"P01620\":{\n\t\"loValue\":0\n}\n,\"P01621\":{\n\t\"loValue\":0\n}\n,\"P01625\":{\n\t\"loValue\":0\n}\n,\"P01700\":{\n\t\"loValue\":0\n}\n,\"P01714\":{\n\t\"loValue\":0\n}\n,\"P01717\":{\n\t\"loValue\":0\n}\n,\"P01743\":{\n\t\"loValue\":0\n}\n,\"P01763\":{\n\t\"loValue\":0\n}\n,\"P01764\":{\n\t\"loValue\":0\n}\n,\"P01765\":{\n\t\"loValue\":0\n}\n,\"P01766\":{\n\t\"loValue\":6\n}\n,\"P01771\":{\n\t\"loValue\":0\n}\n,\"P01780\":{\n\t\"loValue\":0\n}\n,\"P01781\":{\n\t\"loValue\":0\n}\n,\"P01825\":{\n\t\"loValue\":0\n}\n,\"P01833\":{\n\t\"loValue\":0\n}\n,\"P01834\":{\n\t\"loValue\":17\n}\n,\"P01857\":{\n\t\"loValue\":17\n}\n,\"P01859\":{\n\t\"loValue\":5\n}\n,\"P01860\":{\n\t\"loValue\":2\n}\n,\"P01861\":{\n\t\"loValue\":0\n}\n,\"P01871\":{\n\t\"loValue\":10\n}\n,\"P01876\":{\n\t\"loValue\":6\n}\n,\"P01877\":{\n\t\"loValue\":0\n}\n,\"P01880\":{\n\t\"loValue\":0\n}\n,\"P02042\":{\n\t\"loValue\":0\n}\n,\"P02452\":{\n\t\"loValue\":0\n}\n,\"P02647\":{\n\t\"loValue\":12\n}\n,\"P02649\":{\n\t\"loValue\":214\n}\n,\"P02652\":{\n\t\"loValue\":6\n}\n,\"P02654\":{\n\t\"loValue\":0\n}\n,\"P02655\":{\n\t\"loValue\":0\n}\n,\"P02656\":{\n\t\"loValue\":0\n}\n,\"P02671\":{\n\t\"loValue\":0\n}\n,\"P02708\":{\n\t\"loValue\":0\n}\n,\"P02735\":{\n\t\"loValue\":0\n}\n,\"P02741\":{\n\t\"loValue\":0\n}\n,\"P02743\":{\n\t\"loValue\":125\n}\n,\"P02745\":{\n\t\"loValue\":0\n}\n,\"P02746\":{\n\t\"loValue\":0\n}\n,\"P02747\":{\n\t\"loValue\":0\n}\n,\"P02748\":{\n\t\"loValue\":0\n}\n,\"P02749\":{\n\t\"loValue\":0\n}\n,\"P02750\":{\n\t\"loValue\":0\n}\n,\"P02751\":{\n\t\"loValue\":0\n}\n,\"P02760\":{\n\t\"loValue\":0\n}\n,\"P02763\":{\n\t\"loValue\":0\n}\n,\"P02765\":{\n\t\"loValue\":0\n}\n,\"P02766\":{\n\t\"loValue\":0\n}\n,\"P02774\":{\n\t\"loValue\":0\n}\n,\"P02775\":{\n\t\"loValue\":0\n}\n,\"P02776\":{\n\t\"loValue\":10\n}\n,\"P02786\":{\n\t\"loValue\":0\n}\n,\"P02787\":{\n\t\"loValue\":0\n}\n,\"P02788\":{\n\t\"loValue\":0\n}\n,\"P02790\":{\n\t\"loValue\":0\n}\n,\"P03303\":{\n\t\"loValue\":0\n}\n,\"P03362\":{\n\t\"loValue\":0\n}\n,\"P03950\":{\n\t\"loValue\":5\n}\n,\"P03951\":{\n\t\"loValue\":110\n}\n,\"P03952\":{\n\t\"loValue\":15\n}\n,\"P04003\":{\n\t\"loValue\":0\n}\n,\"P04004\":{\n\t\"loValue\":179\n}\n,\"P04070\":{\n\t\"loValue\":0\n}\n,\"P04075\":{\n\t\"loValue\":0\n}\n,\"P04083\":{\n\t\"loValue\":0\n}\n,\"P04114\":{\n\t\"loValue\":0\n}\n,\"P04180\":{\n\t\"loValue\":0\n}\n,\"P04196\":{\n\t\"loValue\":151\n}\n,\"P04206\":{\n\t\"loValue\":0\n}\n,\"P04217\":{\n\t\"loValue\":0\n}\n,\"P04220\":{\n\t\"loValue\":0\n}\n,\"P04275\":{\n\t\"loValue\":0\n}\n,\"P04279\":{\n\t\"loValue\":0\n}\n,\"P04406\":{\n\t\"loValue\":0\n}\n,\"P04433\":{\n\t\"loValue\":0\n}\n,\"P04434\":{\n\t\"loValue\":0\n}\n,\"P04632\":{\n\t\"loValue\":0\n}\n,\"P04792\":{\n\t\"loValue\":0\n}\n,\"P04899\":{\n\t\"loValue\":0\n}\n,\"P04908\":{\n\t\"loValue\":0\n}\n,\"P05019\":{\n\t\"loValue\":0\n}\n,\"P05062\":{\n\t\"loValue\":0\n}\n,\"P05067\":{\n\t\"loValue\":0\n}\n,\"P05090\":{\n\t\"loValue\":0\n}\n,\"P05106\":{\n\t\"loValue\":0\n}\n,\"P05109\":{\n\t\"loValue\":0\n}\n,\"P05154\":{\n\t\"loValue\":69\n}\n,\"P05155\":{\n\t\"loValue\":0\n}\n,\"P05156\":{\n\t\"loValue\":0\n}\n,\"P05452\":{\n\t\"loValue\":0\n}\n,\"P05546\":{\n\t\"loValue\":14\n}\n,\"P05667\":{\n\t\"loValue\":0\n}\n,\"P06239\":{\n\t\"loValue\":0\n}\n,\"P06276\":{\n\t\"loValue\":0\n}\n,\"P06280\":{\n\t\"loValue\":0\n}\n,\"P06311\":{\n\t\"loValue\":0\n}\n,\"P06396\":{\n\t\"loValue\":5\n}\n,\"P06421\":{\n\t\"loValue\":0\n}\n,\"P06435\":{\n\t\"loValue\":0\n}\n,\"P06681\":{\n\t\"loValue\":0\n}\n,\"P06702\":{\n\t\"loValue\":0\n}\n,\"P06727\":{\n\t\"loValue\":0\n}\n,\"P06732\":{\n\t\"loValue\":0\n}\n,\"P06733\":{\n\t\"loValue\":0\n}\n,\"P06744\":{\n\t\"loValue\":0\n}\n,\"P07195\":{\n\t\"loValue\":0\n}\n,\"P07225\":{\n\t\"loValue\":0\n}\n,\"P07332\":{\n\t\"loValue\":0\n}\n,\"P07355\":{\n\t\"loValue\":0\n}\n,\"P07357\":{\n\t\"loValue\":0\n}\n,\"P07358\":{\n\t\"loValue\":0\n}\n,\"P07360\":{\n\t\"loValue\":0\n}\n,\"P07384\":{\n\t\"loValue\":0\n}\n,\"P07737\":{\n\t\"loValue\":0\n}\n,\"P07900\":{\n\t\"loValue\":0\n}\n,\"P07996\":{\n\t\"loValue\":3\n}\n,\"P08123\":{\n\t\"loValue\":0\n}\n,\"P08185\":{\n\t\"loValue\":0\n}\n,\"P08238\":{\n\t\"loValue\":0\n}\n,\"P08294\":{\n\t\"loValue\":0\n}\n,\"P08393\":{\n\t\"loValue\":0\n}\n,\"P08514\":{\n\t\"loValue\":0\n}\n,\"P08519\":{\n\t\"loValue\":0\n}\n,\"P08567\":{\n\t\"loValue\":0\n}\n,\"P08575\":{\n\t\"loValue\":0\n}\n,\"P08603\":{\n\t\"loValue\":10\n}\n,\"P08697\":{\n\t\"loValue\":0\n}\n,\"P08709\":{\n\t\"loValue\":0\n}\n,\"P08922\":{\n\t\"loValue\":0\n}\n,\"P09211\":{\n\t\"loValue\":0\n}\n,\"P09493\":{\n\t\"loValue\":0\n}\n,\"P09603\":{\n\t\"loValue\":0\n}\n,\"P09871\":{\n\t\"loValue\":0\n}\n,\"P0C0L4\":{\n\t\"loValue\":111\n}\n,\"P0C0L5\":{\n\t\"loValue\":1\n}\n,\"P0C6X2\":{\n\t\"loValue\":0\n}\n,\"P0C6X3\":{\n\t\"loValue\":0\n}\n,\"P0C6X5\":{\n\t\"loValue\":0\n}\n,\"P0C6X6\":{\n\t\"loValue\":0\n}\n,\"P0C7N1\":{\n\t\"loValue\":0\n}\n,\"P0C7U2\":{\n\t\"loValue\":0\n}\n,\"P0C7U3\":{\n\t\"loValue\":0\n}\n,\"P0C881\":{\n\t\"loValue\":0\n}\n,\"P0CG05\":{\n\t\"loValue\":7\n}\n,\"P10071\":{\n\t\"loValue\":0\n}\n,\"P10211\":{\n\t\"loValue\":0\n}\n,\"P10242\":{\n\t\"loValue\":0\n}\n,\"P10451\":{\n\t\"loValue\":0\n}\n,\"P10599\":{\n\t\"loValue\":0\n}\n,\"P10643\":{\n\t\"loValue\":0\n}\n,\"P10646\":{\n\t\"loValue\":0\n}\n,\"P10720\":{\n\t\"loValue\":17\n}\n,\"P10745\":{\n\t\"loValue\":0\n}\n,\"P10909\":{\n\t\"loValue\":7\n}\n,\"P11274\":{\n\t\"loValue\":0\n}\n,\"P11532\":{\n\t\"loValue\":0\n}\n,\"P11597\":{\n\t\"loValue\":0\n}\n,\"P12259\":{\n\t\"loValue\":2\n}\n,\"P12273\":{\n\t\"loValue\":0\n}\n,\"P12314\":{\n\t\"loValue\":0\n}\n,\"P12814\":{\n\t\"loValue\":0\n}\n,\"P12830\":{\n\t\"loValue\":0\n}\n,\"P13533\":{\n\t\"loValue\":0\n}\n,\"P13591\":{\n\t\"loValue\":0\n}\n,\"P13667\":{\n\t\"loValue\":0\n}\n,\"P13671\":{\n\t\"loValue\":0\n}\n,\"P13929\":{\n\t\"loValue\":0\n}\n,\"P14136\":{\n\t\"loValue\":3\n}\n,\"P14314\":{\n\t\"loValue\":0\n}\n,\"P14543\":{\n\t\"loValue\":0\n}\n,\"P14618\":{\n\t\"loValue\":0\n}\n,\"P14625\":{\n\t\"loValue\":0\n}\n,\"P14923\":{\n\t\"loValue\":0\n}\n,\"P15169\":{\n\t\"loValue\":2\n}\n,\"P15311\":{\n\t\"loValue\":0\n}\n,\"P15884\":{\n\t\"loValue\":0\n}\n,\"P15924\":{\n\t\"loValue\":0\n}\n,\"P16070\":{\n\t\"loValue\":0\n}\n,\"P16112\":{\n\t\"loValue\":0\n}\n,\"P16827\":{\n\t\"loValue\":0\n}\n,\"P17275\":{\n\t\"loValue\":0\n}\n,\"P17927\":{\n\t\"loValue\":0\n}\n,\"P17936\":{\n\t\"loValue\":0\n}\n,\"P18065\":{\n\t\"loValue\":0\n}\n,\"P18206\":{\n\t\"loValue\":0\n}\n,\"P18428\":{\n\t\"loValue\":0\n}\n,\"P18827\":{\n\t\"loValue\":0\n}\n,\"P19652\":{\n\t\"loValue\":0\n}\n,\"P19823\":{\n\t\"loValue\":0\n}\n,\"P19827\":{\n\t\"loValue\":0\n}\n,\"P20160\":{\n\t\"loValue\":0\n}\n,\"P20591\":{\n\t\"loValue\":0\n}\n,\"P20851\":{\n\t\"loValue\":0\n}\n,\"P21333\":{\n\t\"loValue\":0\n}\n,\"P21810\":{\n\t\"loValue\":0\n}\n,\"P22102\":{\n\t\"loValue\":0\n}\n,\"P22105\":{\n\t\"loValue\":0\n}\n,\"P22303\":{\n\t\"loValue\":0\n}\n,\"P22352\":{\n\t\"loValue\":0\n}\n,\"P22607\":{\n\t\"loValue\":0\n}\n,\"P22614\":{\n\t\"loValue\":0\n}\n,\"P22692\":{\n\t\"loValue\":1\n}\n,\"P22891\":{\n\t\"loValue\":0\n}\n,\"P23528\":{\n\t\"loValue\":0\n}\n,\"P24437\":{\n\t\"loValue\":0\n}\n,\"P24592\":{\n\t\"loValue\":0\n}\n,\"P24593\":{\n\t\"loValue\":0\n}\n,\"P24855\":{\n\t\"loValue\":0\n}\n,\"P24928\":{\n\t\"loValue\":0\n}\n,\"P25311\":{\n\t\"loValue\":0\n}\n,\"P25685\":{\n\t\"loValue\":0\n}\n,\"P26038\":{\n\t\"loValue\":0\n}\n,\"P26927\":{\n\t\"loValue\":0\n}\n,\"P27105\":{\n\t\"loValue\":0\n}\n,\"P27169\":{\n\t\"loValue\":0\n}\n,\"P27482\":{\n\t\"loValue\":0\n}\n,\"P27708\":{\n\t\"loValue\":0\n}\n,\"P27797\":{\n\t\"loValue\":0\n}\n,\"P27816\":{\n\t\"loValue\":0\n}\n,\"P27918\":{\n\t\"loValue\":0\n}\n,\"P28325\":{\n\t\"loValue\":0\n}\n,\"P28566\":{\n\t\"loValue\":0\n}\n,\"P29083\":{\n\t\"loValue\":0\n}\n,\"P29317\":{\n\t\"loValue\":0\n}\n,\"P29401\":{\n\t\"loValue\":0\n}\n,\"P29508\":{\n\t\"loValue\":0\n}\n,\"P29622\":{\n\t\"loValue\":0\n}\n,\"P30101\":{\n\t\"loValue\":0\n}\n,\"P30304\":{\n\t\"loValue\":0\n}\n,\"P30519\":{\n\t\"loValue\":0\n}\n,\"P30530\":{\n\t\"loValue\":0\n}\n,\"P31025\":{\n\t\"loValue\":0\n}\n,\"P31151\":{\n\t\"loValue\":0\n}\n,\"P31942\":{\n\t\"loValue\":0\n}\n,\"P33764\":{\n\t\"loValue\":0\n}\n,\"P33778\":{\n\t\"loValue\":0\n}\n,\"P33811\":{\n\t\"loValue\":0\n}\n,\"P33818\":{\n\t\"loValue\":0\n}\n,\"P34096\":{\n\t\"loValue\":0\n}\n,\"P35247\":{\n\t\"loValue\":0\n}\n,\"P35443\":{\n\t\"loValue\":0\n}\n,\"P35475\":{\n\t\"loValue\":0\n}\n,\"P35542\":{\n\t\"loValue\":10\n}\n,\"P35555\":{\n\t\"loValue\":0\n}\n,\"P35579\":{\n\t\"loValue\":0\n}\n,\"P35580\":{\n\t\"loValue\":0\n}\n,\"P35749\":{\n\t\"loValue\":0\n}\n,\"P35858\":{\n\t\"loValue\":0\n}\n,\"P35959\":{\n\t\"loValue\":0\n}\n,\"P36896\":{\n\t\"loValue\":0\n}\n,\"P36955\":{\n\t\"loValue\":0\n}\n,\"P36980\":{\n\t\"loValue\":0\n}\n,\"P39060\":{\n\t\"loValue\":0\n}\n,\"P40763\":{\n\t\"loValue\":0\n}\n,\"P41002\":{\n\t\"loValue\":0\n}\n,\"P41968\":{\n\t\"loValue\":0\n}\n,\"P42694\":{\n\t\"loValue\":0\n}\n,\"P43652\":{\n\t\"loValue\":0\n}\n,\"P46939\":{\n\t\"loValue\":0\n}\n,\"P47929\":{\n\t\"loValue\":0\n}\n,\"P48059\":{\n\t\"loValue\":0\n}\n,\"P48200\":{\n\t\"loValue\":0\n}\n,\"P48380\":{\n\t\"loValue\":0\n}\n,\"P48426\":{\n\t\"loValue\":0\n}\n,\"P48594\":{\n\t\"loValue\":0\n}\n,\"P48740\":{\n\t\"loValue\":0\n}\n,\"P49146\":{\n\t\"loValue\":0\n}\n,\"P49746\":{\n\t\"loValue\":0\n}\n,\"P49747\":{\n\t\"loValue\":0\n}\n,\"P49750\":{\n\t\"loValue\":0\n}\n,\"P49789\":{\n\t\"loValue\":0\n}\n,\"P49908\":{\n\t\"loValue\":1\n}\n,\"P49913\":{\n\t\"loValue\":0\n}\n,\"P51795\":{\n\t\"loValue\":0\n}\n,\"P51884\":{\n\t\"loValue\":0\n}\n,\"P52452\":{\n\t\"loValue\":0\n}\n,\"P52468\":{\n\t\"loValue\":0\n}\n,\"P53609\":{\n\t\"loValue\":0\n}\n,\"P53677\":{\n\t\"loValue\":0\n}\n,\"P55056\":{\n\t\"loValue\":0\n}\n,\"P55058\":{\n\t\"loValue\":0\n}\n,\"P55081\":{\n\t\"loValue\":0\n}\n,\"P55103\":{\n\t\"loValue\":0\n}\n,\"P55209\":{\n\t\"loValue\":0\n}\n,\"P55774\":{\n\t\"loValue\":0\n}\n,\"P56597\":{\n\t\"loValue\":0\n}\n,\"P56856\":{\n\t\"loValue\":0\n}\n,\"P59533\":{\n\t\"loValue\":0\n}\n,\"P59665\":{\n\t\"loValue\":3\n}\n,\"P61221\":{\n\t\"loValue\":0\n}\n,\"P61224\":{\n\t\"loValue\":0\n}\n,\"P61570\":{\n\t\"loValue\":0\n}\n,\"P61586\":{\n\t\"loValue\":0\n}\n,\"P61626\":{\n\t\"loValue\":0\n}\n,\"P61769\":{\n\t\"loValue\":0\n}\n,\"P62158\":{\n\t\"loValue\":0\n}\n,\"P62805\":{\n\t\"loValue\":0\n}\n,\"P62834\":{\n\t\"loValue\":0\n}\n,\"P62937\":{\n\t\"loValue\":0\n}\n,\"P62987\":{\n\t\"loValue\":0\n}\n,\"P63104\":{\n\t\"loValue\":0\n}\n,\"P63241\":{\n\t\"loValue\":0\n}\n,\"P67809\":{\n\t\"loValue\":0\n}\n,\"P67936\":{\n\t\"loValue\":0\n}\n,\"P68104\":{\n\t\"loValue\":0\n}\n,\"P68363\":{\n\t\"loValue\":0\n}\n,\"P68366\":{\n\t\"loValue\":0\n}\n,\"P68871\":{\n\t\"loValue\":0\n}\n,\"P69905\":{\n\t\"loValue\":0\n}\n,\"P78344\":{\n\t\"loValue\":0\n}\n,\"P80748\":{\n\t\"loValue\":0\n}\n,\"P81605\":{\n\t\"loValue\":0\n}\n,\"P84077\":{\n\t\"loValue\":0\n}\n,\"P98088\":{\n\t\"loValue\":0\n}\n,\"P98160\":{\n\t\"loValue\":0\n}\n,\"Q00169\":{\n\t\"loValue\":0\n}\n,\"Q02413\":{\n\t\"loValue\":0\n}\n,\"Q02817\":{\n\t\"loValue\":0\n}\n,\"Q02846\":{\n\t\"loValue\":0\n}\n,\"Q03591\":{\n\t\"loValue\":5\n}\n,\"Q04637\":{\n\t\"loValue\":0\n}\n,\"Q04724\":{\n\t\"loValue\":0\n}\n,\"Q04756\":{\n\t\"loValue\":0\n}\n,\"Q06033\":{\n\t\"loValue\":0\n}\n,\"Q07507\":{\n\t\"loValue\":0\n}\n,\"Q07954\":{\n\t\"loValue\":0\n}\n,\"Q08380\":{\n\t\"loValue\":0\n}\n,\"Q09472\":{\n\t\"loValue\":0\n}\n,\"Q0IIM8\":{\n\t\"loValue\":0\n}\n,\"Q0P6H9\":{\n\t\"loValue\":0\n}\n,\"Q12778\":{\n\t\"loValue\":0\n}\n,\"Q12794\":{\n\t\"loValue\":0\n}\n,\"Q12816\":{\n\t\"loValue\":0\n}\n,\"Q12852\":{\n\t\"loValue\":0\n}\n,\"Q12864\":{\n\t\"loValue\":0\n}\n,\"Q12955\":{\n\t\"loValue\":0\n}\n,\"Q13093\":{\n\t\"loValue\":0\n}\n,\"Q13103\":{\n\t\"loValue\":0\n}\n,\"Q13217\":{\n\t\"loValue\":0\n}\n,\"Q13277\":{\n\t\"loValue\":0\n}\n,\"Q13310\":{\n\t\"loValue\":0\n}\n,\"Q13418\":{\n\t\"loValue\":0\n}\n,\"Q13426\":{\n\t\"loValue\":0\n}\n,\"Q13546\":{\n\t\"loValue\":0\n}\n,\"Q13576\":{\n\t\"loValue\":0\n}\n,\"Q13642\":{\n\t\"loValue\":0\n}\n,\"Q13790\":{\n\t\"loValue\":0\n}\n,\"Q13797\":{\n\t\"loValue\":0\n}\n,\"Q13868\":{\n\t\"loValue\":0\n}\n,\"Q13885\":{\n\t\"loValue\":0\n}\n,\"Q13952\":{\n\t\"loValue\":0\n}\n,\"Q13972\":{\n\t\"loValue\":0\n}\n,\"Q14003\":{\n\t\"loValue\":0\n}\n,\"Q14050\":{\n\t\"loValue\":0\n}\n,\"Q14151\":{\n\t\"loValue\":0\n}\n,\"Q14157\":{\n\t\"loValue\":0\n}\n,\"Q14168\":{\n\t\"loValue\":0\n}\n,\"Q14185\":{\n\t\"loValue\":0\n}\n,\"Q14247\":{\n\t\"loValue\":0\n}\n,\"Q14393\":{\n\t\"loValue\":0\n}\n,\"Q14515\":{\n\t\"loValue\":0\n}\n,\"Q14520\":{\n\t\"loValue\":0\n}\n,\"Q14624\":{\n\t\"loValue\":11\n}\n,\"Q14656\":{\n\t\"loValue\":0\n}\n,\"Q14689\":{\n\t\"loValue\":0\n}\n,\"Q14766\":{\n\t\"loValue\":0\n}\n,\"Q147U4\":{\n\t\"loValue\":0\n}\n,\"Q14973\":{\n\t\"loValue\":0\n}\n,\"Q14CM0\":{\n\t\"loValue\":0\n}\n,\"Q14D04\":{\n\t\"loValue\":0\n}\n,\"Q14EA6\":{\n\t\"loValue\":0\n}\n,\"Q15113\":{\n\t\"loValue\":0\n}\n,\"Q15166\":{\n\t\"loValue\":0\n}\n,\"Q15303\":{\n\t\"loValue\":0\n}\n,\"Q15468\":{\n\t\"loValue\":0\n}\n,\"Q15485\":{\n\t\"loValue\":0\n}\n,\"Q15555\":{\n\t\"loValue\":0\n}\n,\"Q15617\":{\n\t\"loValue\":0\n}\n,\"Q15751\":{\n\t\"loValue\":0\n}\n,\"Q15758\":{\n\t\"loValue\":0\n}\n,\"Q15777\":{\n\t\"loValue\":0\n}\n,\"Q15836\":{\n\t\"loValue\":0\n}\n,\"Q16348\":{\n\t\"loValue\":0\n}\n,\"Q16520\":{\n\t\"loValue\":0\n}\n,\"Q16665\":{\n\t\"loValue\":0\n}\n,\"Q16696\":{\n\t\"loValue\":0\n}\n,\"Q16849\":{\n\t\"loValue\":0\n}\n,\"Q1HVB8\":{\n\t\"loValue\":0\n}\n,\"Q1HVF2\":{\n\t\"loValue\":0\n}\n,\"Q29RF7\":{\n\t\"loValue\":0\n}\n,\"Q2KHT3\":{\n\t\"loValue\":0\n}\n,\"Q2LD37\":{\n\t\"loValue\":0\n}\n,\"Q2TAK8\":{\n\t\"loValue\":0\n}\n,\"Q2VWP7\":{\n\t\"loValue\":0\n}\n,\"Q2WGJ6\":{\n\t\"loValue\":0\n}\n,\"Q2Y0W8\":{\n\t\"loValue\":0\n}\n,\"Q30201\":{\n\t\"loValue\":0\n}\n,\"Q32P41\":{\n\t\"loValue\":0\n}\n,\"Q3LXA3\":{\n\t\"loValue\":0\n}\n,\"Q49A17\":{\n\t\"loValue\":0\n}\n,\"Q49A26\":{\n\t\"loValue\":0\n}\n,\"Q4G0Z9\":{\n\t\"loValue\":0\n}\n,\"Q4JDL3\":{\n\t\"loValue\":0\n}\n,\"Q4W5G0\":{\n\t\"loValue\":0\n}\n,\"Q58FF7\":{\n\t\"loValue\":0\n}\n,\"Q58FG0\":{\n\t\"loValue\":0\n}\n,\"Q58FG1\":{\n\t\"loValue\":0\n}\n,\"Q5BVD1\":{\n\t\"loValue\":0\n}\n,\"Q5D862\":{\n\t\"loValue\":0\n}\n,\"Q5HYC2\":{\n\t\"loValue\":0\n}\n,\"Q5JY77\":{\n\t\"loValue\":0\n}\n,\"Q5JZY3\":{\n\t\"loValue\":0\n}\n,\"Q5SY16\":{\n\t\"loValue\":0\n}\n,\"Q5T4S7\":{\n\t\"loValue\":0\n}\n,\"Q5TB80\":{\n\t\"loValue\":0\n}\n,\"Q5TH69\":{\n\t\"loValue\":0\n}\n,\"Q5VST9\":{\n\t\"loValue\":0\n}\n,\"Q5VTR2\":{\n\t\"loValue\":0\n}\n,\"Q5VWG9\":{\n\t\"loValue\":0\n}\n,\"Q5XUX0\":{\n\t\"loValue\":0\n}\n,\"Q676U5\":{\n\t\"loValue\":0\n}\n,\"Q68CQ1\":{\n\t\"loValue\":0\n}\n,\"Q6F5E8\":{\n\t\"loValue\":0\n}\n,\"Q6FI13\":{\n\t\"loValue\":0\n}\n,\"Q6IEV9\":{\n\t\"loValue\":0\n}\n,\"Q6IQ26\":{\n\t\"loValue\":0\n}\n,\"Q6KC79\":{\n\t\"loValue\":0\n}\n,\"Q6P1K1\":{\n\t\"loValue\":0\n}\n,\"Q6P656\":{\n\t\"loValue\":0\n}\n,\"Q6PJT7\":{\n\t\"loValue\":0\n}\n,\"Q6PKG0\":{\n\t\"loValue\":0\n}\n,\"Q6Q0C0\":{\n\t\"loValue\":0\n}\n,\"Q6Q788\":{\n\t\"loValue\":0\n}\n,\"Q6SPF0\":{\n\t\"loValue\":0\n}\n,\"Q6UW60\":{\n\t\"loValue\":0\n}\n,\"Q6UWB1\":{\n\t\"loValue\":0\n}\n,\"Q6UWD8\":{\n\t\"loValue\":0\n}\n,\"Q6UX06\":{\n\t\"loValue\":0\n}\n,\"Q6UXG2\":{\n\t\"loValue\":0\n}\n,\"Q6ZMV8\":{\n\t\"loValue\":0\n}\n,\"Q6ZN28\":{\n\t\"loValue\":0\n}\n,\"Q6ZWH5\":{\n\t\"loValue\":0\n}\n,\"Q709F0\":{\n\t\"loValue\":0\n}\n,\"Q71F56\":{\n\t\"loValue\":0\n}\n,\"Q71SY5\":{\n\t\"loValue\":0\n}\n,\"Q71U36\":{\n\t\"loValue\":0\n}\n,\"Q76632\":{\n\t\"loValue\":0\n}\n,\"Q76633\":{\n\t\"loValue\":0\n}\n,\"Q7KYR7\":{\n\t\"loValue\":0\n}\n,\"Q7Z2D5\":{\n\t\"loValue\":0\n}\n,\"Q7Z3B3\":{\n\t\"loValue\":0\n}\n,\"Q7Z407\":{\n\t\"loValue\":0\n}\n,\"Q7Z478\":{\n\t\"loValue\":0\n}\n,\"Q7Z601\":{\n\t\"loValue\":0\n}\n,\"Q7Z7G0\":{\n\t\"loValue\":0\n}\n,\"Q86T90\":{\n\t\"loValue\":0\n}\n,\"Q86TB9\":{\n\t\"loValue\":0\n}\n,\"Q86UC2\":{\n\t\"loValue\":0\n}\n,\"Q86UK0\":{\n\t\"loValue\":0\n}\n,\"Q86UX6\":{\n\t\"loValue\":0\n}\n,\"Q86UX7\":{\n\t\"loValue\":0\n}\n,\"Q86VI4\":{\n\t\"loValue\":0\n}\n,\"Q86WS5\":{\n\t\"loValue\":0\n}\n,\"Q86YC2\":{\n\t\"loValue\":0\n}\n,\"Q86YT5\":{\n\t\"loValue\":0\n}\n,\"Q8IU80\":{\n\t\"loValue\":0\n}\n,\"Q8IV31\":{\n\t\"loValue\":0\n}\n,\"Q8IV77\":{\n\t\"loValue\":0\n}\n,\"Q8IWV2\":{\n\t\"loValue\":0\n}\n,\"Q8IZF2\":{\n\t\"loValue\":0\n}\n,\"Q8IZP9\":{\n\t\"loValue\":0\n}\n,\"Q8IZS8\":{\n\t\"loValue\":0\n}\n,\"Q8N130\":{\n\t\"loValue\":0\n}\n,\"Q8N149\":{\n\t\"loValue\":0\n}\n,\"Q8N2G6\":{\n\t\"loValue\":0\n}\n,\"Q8N3C7\":{\n\t\"loValue\":0\n}\n,\"Q8N5Q1\":{\n\t\"loValue\":0\n}\n,\"Q8N5V2\":{\n\t\"loValue\":0\n}\n,\"Q8N693\":{\n\t\"loValue\":0\n}\n,\"Q8N697\":{\n\t\"loValue\":0\n}\n,\"Q8N8R5\":{\n\t\"loValue\":0\n}\n,\"Q8N961\":{\n\t\"loValue\":0\n}\n,\"Q8NB12\":{\n\t\"loValue\":0\n}\n,\"Q8NBC4\":{\n\t\"loValue\":0\n}\n,\"Q8NBP7\":{\n\t\"loValue\":0\n}\n,\"Q8NBU5\":{\n\t\"loValue\":0\n}\n,\"Q8NCW6\":{\n\t\"loValue\":0\n}\n,\"Q8ND61\":{\n\t\"loValue\":0\n}\n,\"Q8NET4\":{\n\t\"loValue\":0\n}\n,\"Q8NEZ4\":{\n\t\"loValue\":0\n}\n,\"Q8NFD5\":{\n\t\"loValue\":0\n}\n,\"Q8NFQ6\":{\n\t\"loValue\":0\n}\n,\"Q8NG66\":{\n\t\"loValue\":0\n}\n,\"Q8NGJ4\":{\n\t\"loValue\":0\n}\n,\"Q8NGL0\":{\n\t\"loValue\":0\n}\n,\"Q8NGY3\":{\n\t\"loValue\":0\n}\n,\"Q8NHA8\":{\n\t\"loValue\":0\n}\n,\"Q8TAQ9\":{\n\t\"loValue\":0\n}\n,\"Q8TB68\":{\n\t\"loValue\":0\n}\n,\"Q8TBZ2\":{\n\t\"loValue\":0\n}\n,\"Q8TCV5\":{\n\t\"loValue\":0\n}\n,\"Q8TD33\":{\n\t\"loValue\":0\n}\n,\"Q8TD86\":{\n\t\"loValue\":0\n}\n,\"Q8TDQ7\":{\n\t\"loValue\":0\n}\n,\"Q8TE04\":{\n\t\"loValue\":0\n}\n,\"Q8TE76\":{\n\t\"loValue\":0\n}\n,\"Q8TEA8\":{\n\t\"loValue\":0\n}\n,\"Q8TEW8\":{\n\t\"loValue\":0\n}\n,\"Q8TF62\":{\n\t\"loValue\":0\n}\n,\"Q8TF66\":{\n\t\"loValue\":0\n}\n,\"Q8WVP7\":{\n\t\"loValue\":0\n}\n,\"Q8WW52\":{\n\t\"loValue\":0\n}\n,\"Q8WXG9\":{\n\t\"loValue\":0\n}\n,\"Q8WXH0\":{\n\t\"loValue\":0\n}\n,\"Q8WXI7\":{\n\t\"loValue\":0\n}\n,\"Q8WXK4\":{\n\t\"loValue\":0\n}\n,\"Q8WZ42\":{\n\t\"loValue\":0\n}\n,\"Q90038\":{\n\t\"loValue\":0\n}\n,\"Q914N2\":{\n\t\"loValue\":0\n}\n,\"Q92545\":{\n\t\"loValue\":0\n}\n,\"Q92630\":{\n\t\"loValue\":0\n}\n,\"Q92643\":{\n\t\"loValue\":0\n}\n,\"Q92673\":{\n\t\"loValue\":0\n}\n,\"Q92698\":{\n\t\"loValue\":0\n}\n,\"Q92736\":{\n\t\"loValue\":0\n}\n,\"Q92747\":{\n\t\"loValue\":0\n}\n,\"Q92793\":{\n\t\"loValue\":0\n}\n,\"Q92797\":{\n\t\"loValue\":0\n}\n,\"Q92925\":{\n\t\"loValue\":0\n}\n,\"Q92954\":{\n\t\"loValue\":14\n}\n,\"Q96AQ1\":{\n\t\"loValue\":0\n}\n,\"Q96AY4\":{\n\t\"loValue\":0\n}\n,\"Q96B21\":{\n\t\"loValue\":0\n}\n,\"Q96C24\":{\n\t\"loValue\":0\n}\n,\"Q96C45\":{\n\t\"loValue\":0\n}\n,\"Q96DA0\":{\n\t\"loValue\":0\n}\n,\"Q96DD0\":{\n\t\"loValue\":0\n}\n,\"Q96DN6\":{\n\t\"loValue\":0\n}\n,\"Q96EN8\":{\n\t\"loValue\":0\n}\n,\"Q96FV0\":{\n\t\"loValue\":0\n}\n,\"Q96IY4\":{\n\t\"loValue\":0\n}\n,\"Q96JK2\":{\n\t\"loValue\":0\n}\n,\"Q96JQ0\":{\n\t\"loValue\":0\n}\n,\"Q96KG9\":{\n\t\"loValue\":0\n}\n,\"Q96KN2\":{\n\t\"loValue\":0\n}\n,\"Q96LR5\":{\n\t\"loValue\":0\n}\n,\"Q96NH3\":{\n\t\"loValue\":0\n}\n,\"Q96NZ9\":{\n\t\"loValue\":0\n}\n,\"Q96P11\":{\n\t\"loValue\":0\n}\n,\"Q96PD5\":{\n\t\"loValue\":0\n}\n,\"Q96PJ5\":{\n\t\"loValue\":0\n}\n,\"Q96R28\":{\n\t\"loValue\":0\n}\n,\"Q96RG2\":{\n\t\"loValue\":0\n}\n,\"Q96RL6\":{\n\t\"loValue\":0\n}\n,\"Q96RL7\":{\n\t\"loValue\":0\n}\n,\"Q96RT8\":{\n\t\"loValue\":0\n}\n,\"Q96RV3\":{\n\t\"loValue\":0\n}\n,\"Q96SN8\":{\n\t\"loValue\":0\n}\n,\"Q99467\":{\n\t\"loValue\":0\n}\n,\"Q99592\":{\n\t\"loValue\":0\n}\n,\"Q99661\":{\n\t\"loValue\":0\n}\n,\"Q99676\":{\n\t\"loValue\":0\n}\n,\"Q99698\":{\n\t\"loValue\":0\n}\n,\"Q99715\":{\n\t\"loValue\":0\n}\n,\"Q99733\":{\n\t\"loValue\":0\n}\n,\"Q99758\":{\n\t\"loValue\":0\n}\n,\"Q99819\":{\n\t\"loValue\":0\n}\n,\"Q99965\":{\n\t\"loValue\":0\n}\n,\"Q99969\":{\n\t\"loValue\":0\n}\n,\"Q9BQS7\":{\n\t\"loValue\":0\n}\n,\"Q9BTP7\":{\n\t\"loValue\":0\n}\n,\"Q9BVV6\":{\n\t\"loValue\":0\n}\n,\"Q9BXJ4\":{\n\t\"loValue\":0\n}\n,\"Q9BXN1\":{\n\t\"loValue\":0\n}\n,\"Q9BXR6\":{\n\t\"loValue\":0\n}\n,\"Q9BYT3\":{\n\t\"loValue\":0\n}\n,\"Q9BYV9\":{\n\t\"loValue\":0\n}\n,\"Q9BZA7\":{\n\t\"loValue\":0\n}\n,\"Q9BZW5\":{\n\t\"loValue\":0\n}\n,\"Q9C093\":{\n\t\"loValue\":0\n}\n,\"Q9C0E4\":{\n\t\"loValue\":0\n}\n,\"Q9C0F3\":{\n\t\"loValue\":0\n}\n,\"Q9H0K4\":{\n\t\"loValue\":0\n}\n,\"Q9H1D0\":{\n\t\"loValue\":0\n}\n,\"Q9H1D9\":{\n\t\"loValue\":0\n}\n,\"Q9H211\":{\n\t\"loValue\":0\n}\n,\"Q9H334\":{\n\t\"loValue\":0\n}\n,\"Q9H346\":{\n\t\"loValue\":0\n}\n,\"Q9H5J4\":{\n\t\"loValue\":0\n}\n,\"Q9H773\":{\n\t\"loValue\":0\n}\n,\"Q9H944\":{\n\t\"loValue\":0\n}\n,\"Q9H9A5\":{\n\t\"loValue\":0\n}\n,\"Q9H9A7\":{\n\t\"loValue\":0\n}\n,\"Q9HAU8\":{\n\t\"loValue\":0\n}\n,\"Q9HBH5\":{\n\t\"loValue\":0\n}\n,\"Q9HBZ2\":{\n\t\"loValue\":0\n}\n,\"Q9HCE0\":{\n\t\"loValue\":0\n}\n,\"Q9HCF6\":{\n\t\"loValue\":0\n}\n,\"Q9HCG1\":{\n\t\"loValue\":0\n}\n,\"Q9HD89\":{\n\t\"loValue\":0\n}\n,\"Q9IVZ8\":{\n\t\"loValue\":0\n}\n,\"Q9NNW5\":{\n\t\"loValue\":0\n}\n,\"Q9NP55\":{\n\t\"loValue\":0\n}\n,\"Q9NQ79\":{\n\t\"loValue\":0\n}\n,\"Q9NQG5\":{\n\t\"loValue\":0\n}\n,\"Q9NQV8\":{\n\t\"loValue\":0\n}\n,\"Q9NQZ2\":{\n\t\"loValue\":0\n}\n,\"Q9NR82\":{\n\t\"loValue\":0\n}\n,\"Q9NRN5\":{\n\t\"loValue\":0\n}\n,\"Q9NSC2\":{\n\t\"loValue\":0\n}\n,\"Q9NSI6\":{\n\t\"loValue\":0\n}\n,\"Q9NTI7\":{\n\t\"loValue\":0\n}\n,\"Q9NUB4\":{\n\t\"loValue\":0\n}\n,\"Q9NUN5\":{\n\t\"loValue\":0\n}\n,\"Q9NUP1\":{\n\t\"loValue\":0\n}\n,\"Q9NUQ2\":{\n\t\"loValue\":0\n}\n,\"Q9NV72\":{\n\t\"loValue\":0\n}\n,\"Q9NWB7\":{\n\t\"loValue\":0\n}\n,\"Q9NYF3\":{\n\t\"loValue\":0\n}\n,\"Q9NZ20\":{\n\t\"loValue\":0\n}\n,\"Q9NZB2\":{\n\t\"loValue\":0\n}\n,\"Q9NZP8\":{\n\t\"loValue\":0\n}\n,\"Q9NZT1\":{\n\t\"loValue\":0\n}\n,\"Q9P1Z9\":{\n\t\"loValue\":4\n}\n,\"Q9P203\":{\n\t\"loValue\":0\n}\n,\"Q9P265\":{\n\t\"loValue\":0\n}\n,\"Q9P2E2\":{\n\t\"loValue\":0\n}\n,\"Q9P2P6\":{\n\t\"loValue\":0\n}\n,\"Q9P2S2\":{\n\t\"loValue\":0\n}\n,\"Q9QJ49\":{\n\t\"loValue\":0\n}\n,\"Q9UBN7\":{\n\t\"loValue\":0\n}\n,\"Q9UBW5\":{\n\t\"loValue\":0\n}\n,\"Q9UEW3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM3\":{\n\t\"loValue\":0\n}\n,\"Q9UGM5\":{\n\t\"loValue\":0\n}\n,\"Q9UHC6\":{\n\t\"loValue\":0\n}\n,\"Q9UHD2\":{\n\t\"loValue\":0\n}\n,\"Q9UHG3\":{\n\t\"loValue\":0\n}\n,\"Q9UIF9\":{\n\t\"loValue\":0\n}\n,\"Q9UIM3\":{\n\t\"loValue\":0\n}\n,\"Q9UIV8\":{\n\t\"loValue\":0\n}\n,\"Q9UJJ9\":{\n\t\"loValue\":0\n}\n,\"Q9UK55\":{\n\t\"loValue\":0\n}\n,\"Q9UK59\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ4\":{\n\t\"loValue\":0\n}\n,\"Q9UKZ9\":{\n\t\"loValue\":0\n}\n,\"Q9UL01\":{\n\t\"loValue\":0\n}\n,\"Q9ULK4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL4\":{\n\t\"loValue\":0\n}\n,\"Q9ULL5\":{\n\t\"loValue\":0\n}\n,\"Q9ULT8\":{\n\t\"loValue\":0\n}\n,\"Q9ULU8\":{\n\t\"loValue\":0\n}\n,\"Q9ULV4\":{\n\t\"loValue\":0\n}\n,\"Q9ULW8\":{\n\t\"loValue\":0\n}\n,\"Q9UMN6\":{\n\t\"loValue\":0\n}\n,\"Q9UNZ2\":{\n\t\"loValue\":0\n}\n,\"Q9UPR0\":{\n\t\"loValue\":0\n}\n,\"Q9UPS6\":{\n\t\"loValue\":0\n}\n,\"Q9UPU5\":{\n\t\"loValue\":0\n}\n,\"Q9WT38\":{\n\t\"loValue\":0\n}\n,\"Q9Y240\":{\n\t\"loValue\":0\n}\n,\"Q9Y2B5\":{\n\t\"loValue\":0\n}\n,\"Q9Y2H6\":{\n\t\"loValue\":0\n}\n,\"Q9Y312\":{\n\t\"loValue\":0\n}\n,\"Q9Y3D7\":{\n\t\"loValue\":1\n}\n,\"Q9Y3Q4\":{\n\t\"loValue\":0\n}\n,\"Q9Y483\":{\n\t\"loValue\":0\n}\n,\"Q9Y485\":{\n\t\"loValue\":0\n}\n,\"Q9Y490\":{\n\t\"loValue\":0\n}\n,\"Q9Y577\":{\n\t\"loValue\":0\n}\n,\"Q9Y5C1\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5G4\":{\n\t\"loValue\":0\n}\n,\"Q9Y5H2\":{\n\t\"loValue\":0\n}\n,\"Q9Y5I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y5S9\":{\n\t\"loValue\":0\n}\n,\"Q9Y5W7\":{\n\t\"loValue\":0\n}\n,\"Q9Y5X5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6C5\":{\n\t\"loValue\":0\n}\n,\"Q9Y6I3\":{\n\t\"loValue\":0\n}\n,\"Q9Y6K0\":{\n\t\"loValue\":0\n}\n,\"Q9Y6M4\":{\n\t\"loValue\":0\n}\n,\"Q9Y6Y1\":{\n\t\"loValue\":0\n}\n}"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2.json b/test/data/enm/study-FCSV-f6949345-efac-3430-b4fe-92a64f8eb885.json
index 35cf6e6..35cf6e6 100644
--- a/test/data/enm/study-FCSV-b38f2b71-aa2d-3d72-af88-166a60bedee2.json
+++ b/test/data/enm/study-FCSV-f6949345-efac-3430-b4fe-92a64f8eb885.json
diff --git a/test/data/enm/study-FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85.json b/test/data/enm/study-FCSV-f6a8d4f7-7006-3b77-85bd-25ab632ecf15.json
index c2278bd..c2278bd 100644
--- a/test/data/enm/study-FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85.json
+++ b/test/data/enm/study-FCSV-f6a8d4f7-7006-3b77-85bd-25ab632ecf15.json
diff --git a/test/data/enm/study-FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67.json b/test/data/enm/study-FCSV-f6c85c90-cb36-3ad8-9f2c-63cfcfcb76eb.json
index 3680440..3680440 100644
--- a/test/data/enm/study-FCSV-4c523ea9-f3e8-32f4-9152-f73400aedb67.json
+++ b/test/data/enm/study-FCSV-f6c85c90-cb36-3ad8-9f2c-63cfcfcb76eb.json
diff --git a/test/data/enm/study-FCSV-f6fb49c0-4758-3cd8-bc59-9436b30115e9.json b/test/data/enm/study-FCSV-f6fb49c0-4758-3cd8-bc59-9436b30115e9.json
new file mode 100644
index 0000000..14b1d8f
--- /dev/null
+++ b/test/data/enm/study-FCSV-f6fb49c0-4758-3cd8-bc59-9436b30115e9.json
@@ -0,0 +1,114 @@
+{
+  "uuid": "FCSV-f6fb49c0-4758-3cd8-bc59-9436b30115e9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "TEM",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "Tecnai 20 (FEI) microscope;Tecnai 20 (FEI) microscope;AMT 16000 camera",
+    "Type of method": "TEM",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Core size",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 59.3,
+        "errQualifier": "sd",
+        "errorValue": 6.4
+      }
+    },
+    {
+      "endpoint": "Density",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/cm^3",
+        "loQualifier": "",
+        "loValue": 19.1
+      }
+    },
+    {
+      "endpoint": "MW",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "g/mol",
+        "loQualifier": "",
+        "loValue": 197
+      }
+    },
+    {
+      "endpoint": "Mol/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    },
+    {
+      "endpoint": "SA/NP",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "cm^2/NP",
+        "loQualifier": "",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f73ad8d1-2c74-3682-8310-721fe29bb273.json b/test/data/enm/study-FCSV-f73ad8d1-2c74-3682-8310-721fe29bb273.json
new file mode 100644
index 0000000..be49de2
--- /dev/null
+++ b/test/data/enm/study-FCSV-f73ad8d1-2c74-3682-8310-721fe29bb273.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-f73ad8d1-2c74-3682-8310-721fe29bb273",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.284,
+        "errQualifier": "sd",
+        "errorValue": 0.002
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.275,
+        "errQualifier": "sd",
+        "errorValue": 0.012
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 524.03,
+        "errQualifier": "sd",
+        "errorValue": 1.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-70406142-0fd6-30bd-873b-5cce39016ed5.json b/test/data/enm/study-FCSV-f7acf54b-25cd-3e8e-ad60-7ff84e60fc04.json
index 07a52c2..07a52c2 100644
--- a/test/data/enm/study-FCSV-70406142-0fd6-30bd-873b-5cce39016ed5.json
+++ b/test/data/enm/study-FCSV-f7acf54b-25cd-3e8e-ad60-7ff84e60fc04.json
diff --git a/test/data/enm/study-FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6.json b/test/data/enm/study-FCSV-f827d490-2a8a-35ec-acdf-5f491ba91ab1.json
index bf6845a..bf6845a 100644
--- a/test/data/enm/study-FCSV-3b96ad7a-bf2d-360d-881a-26094f498af6.json
+++ b/test/data/enm/study-FCSV-f827d490-2a8a-35ec-acdf-5f491ba91ab1.json
diff --git a/test/data/enm/study-FCSV-f8352d01-c7b8-39c6-a94e-8d24fb407288.json b/test/data/enm/study-FCSV-f8352d01-c7b8-39c6-a94e-8d24fb407288.json
new file mode 100644
index 0000000..9ab9061
--- /dev/null
+++ b/test/data/enm/study-FCSV-f8352d01-c7b8-39c6-a94e-8d24fb407288.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-f8352d01-c7b8-39c6-a94e-8d24fb407288",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-815715e8-0cc8-3641-897c-4530d961cfe0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.23,
+        "errQualifier": "sd",
+        "errorValue": 0.024
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.321,
+        "errQualifier": "sd",
+        "errorValue": 0.013
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 541.17,
+        "errQualifier": "sd",
+        "errorValue": 1.12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-f84798a1-a41c-3b87-9977-d39c025b7dd9.json b/test/data/enm/study-FCSV-f84798a1-a41c-3b87-9977-d39c025b7dd9.json
new file mode 100644
index 0000000..c23e76c
--- /dev/null
+++ b/test/data/enm/study-FCSV-f84798a1-a41c-3b87-9977-d39c025b7dd9.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "FCSV-f84798a1-a41c-3b87-9977-d39c025b7dd9",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Description",
+    "guideline": [
+      "Description"
+    ]
+  },
+  "parameters": {
+    "Type of method": null,
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": null,
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "[Au]"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-815715e8-0cc8-3641-897c-4530d961cfe0.json b/test/data/enm/study-FCSV-f86e88d3-5535-3694-96d1-e88a4b415801.json
index 8977b88..8977b88 100644
--- a/test/data/enm/study-FCSV-815715e8-0cc8-3641-897c-4530d961cfe0.json
+++ b/test/data/enm/study-FCSV-f86e88d3-5535-3694-96d1-e88a4b415801.json
diff --git a/test/data/enm/study-FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4.json b/test/data/enm/study-FCSV-f8ba0d7b-df8d-362f-bd4f-04bc59dbcafb.json
index ae28556..ae28556 100644
--- a/test/data/enm/study-FCSV-05f4c488-5326-3d8a-be41-c57c468b2fa4.json
+++ b/test/data/enm/study-FCSV-f8ba0d7b-df8d-362f-bd4f-04bc59dbcafb.json
diff --git a/test/data/enm/study-FCSV-f8daf37b-bb2b-3503-b539-024d4f512724.json b/test/data/enm/study-FCSV-f8daf37b-bb2b-3503-b539-024d4f512724.json
new file mode 100644
index 0000000..977945c
--- /dev/null
+++ b/test/data/enm/study-FCSV-f8daf37b-bb2b-3503-b539-024d4f512724.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-f8daf37b-bb2b-3503-b539-024d4f512724",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-7ad8c003-d0ee-3ea6-9374-b6e4d2f33401"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.106,
+        "errQualifier": "sd",
+        "errorValue": 0.015
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.1,
+        "errQualifier": "sd",
+        "errorValue": 0.005
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8.json b/test/data/enm/study-FCSV-f8e73904-7d8c-37a1-b091-58c4706dff3f.json
index 587e53e..587e53e 100644
--- a/test/data/enm/study-FCSV-eec391e5-065c-32c1-89ca-3eb40260c1a8.json
+++ b/test/data/enm/study-FCSV-f8e73904-7d8c-37a1-b091-58c4706dff3f.json
diff --git a/test/data/enm/study-FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31.json b/test/data/enm/study-FCSV-f908f459-38a9-3233-814d-c32bfd13b2cd.json
index 79066bb..79066bb 100644
--- a/test/data/enm/study-FCSV-7c56798c-f7cd-37d3-8a67-ead57f36db31.json
+++ b/test/data/enm/study-FCSV-f908f459-38a9-3233-814d-c32bfd13b2cd.json
diff --git a/test/data/enm/study-FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e.json b/test/data/enm/study-FCSV-f94704cf-6cf3-36f6-9033-a0145d2503e2.json
index 0264514..0264514 100644
--- a/test/data/enm/study-FCSV-e4b9ce55-bbeb-368b-a1d4-e591b7df742e.json
+++ b/test/data/enm/study-FCSV-f94704cf-6cf3-36f6-9033-a0145d2503e2.json
diff --git a/test/data/enm/study-FCSV-6aea0743-7abb-3448-85ce-961b67fca97f.json b/test/data/enm/study-FCSV-f97ae05b-a17c-3728-add7-43957623ba89.json
index 1f445f3..1f445f3 100644
--- a/test/data/enm/study-FCSV-6aea0743-7abb-3448-85ce-961b67fca97f.json
+++ b/test/data/enm/study-FCSV-f97ae05b-a17c-3728-add7-43957623ba89.json
diff --git a/test/data/enm/study-FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed.json b/test/data/enm/study-FCSV-f9d8b546-5a63-33a5-8bbb-8a6ccec0d47d.json
index 0a2ba27..0a2ba27 100644
--- a/test/data/enm/study-FCSV-a3c8dce5-07ab-3ca6-91a0-84072fc24aed.json
+++ b/test/data/enm/study-FCSV-f9d8b546-5a63-33a5-8bbb-8a6ccec0d47d.json
diff --git a/test/data/enm/study-FCSV-fa042e92-1d94-3fa2-9f98-a55f51a7a4c7.json b/test/data/enm/study-FCSV-fa042e92-1d94-3fa2-9f98-a55f51a7a4c7.json
new file mode 100644
index 0000000..103d2f1
--- /dev/null
+++ b/test/data/enm/study-FCSV-fa042e92-1d94-3fa2-9f98-a55f51a7a4c7.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-fa042e92-1d94-3fa2-9f98-a55f51a7a4c7",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 40.4,
+        "errQualifier": "sd",
+        "errorValue": 0.66
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 53.24,
+        "errQualifier": "sd",
+        "errorValue": 2.42
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35.08,
+        "errQualifier": "sd",
+        "errorValue": 8.48
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20.8,
+        "errQualifier": "sd",
+        "errorValue": 4.91
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.15,
+        "errQualifier": "sd",
+        "errorValue": 10.2
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15.37,
+        "errQualifier": "sd",
+        "errorValue": 1.46
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.15,
+        "errQualifier": "sd",
+        "errorValue": 1.27
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 69.68,
+        "errQualifier": "sd",
+        "errorValue": 11.98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-fa4cc34f-420c-3af6-abb4-5536ef344006.json b/test/data/enm/study-FCSV-fa4cc34f-420c-3af6-abb4-5536ef344006.json
new file mode 100644
index 0000000..3839f6f
--- /dev/null
+++ b/test/data/enm/study-FCSV-fa4cc34f-420c-3af6-abb4-5536ef344006.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "FCSV-fa4cc34f-420c-3af6-abb4-5536ef344006",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "CRYSTALLITE_AND_GRAIN_SIZE_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.26 Nanomaterial crystallite and grain size"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.284,
+        "errQualifier": "sd",
+        "errorValue": 0.052
+      }
+    },
+    {
+      "endpoint": "Polydispersity index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 0.289,
+        "errQualifier": "sd",
+        "errorValue": 0.008
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-fa5fd4e2-1cfd-3363-a78b-a8b0f664fac1.json b/test/data/enm/study-FCSV-fa5fd4e2-1cfd-3363-a78b-a8b0f664fac1.json
new file mode 100644
index 0000000..6f36e0e
--- /dev/null
+++ b/test/data/enm/study-FCSV-fa5fd4e2-1cfd-3363-a78b-a8b0f664fac1.json
@@ -0,0 +1,86 @@
+{
+  "uuid": "FCSV-fa5fd4e2-1cfd-3363-a78b-a8b0f664fac1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Absorbance.spectrophotometry.AS.",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "UV-1601PC absorbance spectrophotometer (Shimadzu)",
+    "Type of method": "Absorbance.spectrophotometry.AS.",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.21,
+        "errQualifier": "sd",
+        "errorValue": 0.0001953
+      }
+    },
+    {
+      "endpoint": "Localized Surface Plasmon Resonance (LSPR) index",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "",
+        "loQualifier": "mean",
+        "loValue": 0.293,
+        "errQualifier": "sd",
+        "errorValue": 0.014
+      }
+    },
+    {
+      "endpoint": "LSPR peak position (nm)",
+      "conditions": {
+        "MEDIUM": " "
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 517.68,
+        "errQualifier": "sd",
+        "errorValue": 0.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f.json b/test/data/enm/study-FCSV-faa280e4-1746-3998-b9d2-1e6b26a47346.json
index ac0ffd0..ac0ffd0 100644
--- a/test/data/enm/study-FCSV-9505d90b-f90b-3c94-a6cc-e4ee4c8ec46f.json
+++ b/test/data/enm/study-FCSV-faa280e4-1746-3998-b9d2-1e6b26a47346.json
diff --git a/test/data/enm/study-FCSV-fabc5d67-2d15-3ac6-8bee-bf4ba1adb18d.json b/test/data/enm/study-FCSV-fabc5d67-2d15-3ac6-8bee-bf4ba1adb18d.json
new file mode 100644
index 0000000..0a4dd58
--- /dev/null
+++ b/test/data/enm/study-FCSV-fabc5d67-2d15-3ac6-8bee-bf4ba1adb18d.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-fabc5d67-2d15-3ac6-8bee-bf4ba1adb18d",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-ded649fa-97e1-3ec6-bb3d-623506389ee0"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 72.45,
+        "errQualifier": "sd",
+        "errorValue": 2.55
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 100.75,
+        "errQualifier": "sd",
+        "errorValue": 4.37
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 131.05,
+        "errQualifier": "sd",
+        "errorValue": 106.94
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 94.79,
+        "errQualifier": "sd",
+        "errorValue": 24.2
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.11,
+        "errQualifier": "sd",
+        "errorValue": 3.37
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 82.21,
+        "errQualifier": "sd",
+        "errorValue": 24.36
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.11,
+        "errQualifier": "sd",
+        "errorValue": 13.29
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 107.09,
+        "errQualifier": "sd",
+        "errorValue": 5.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3.json b/test/data/enm/study-FCSV-fabda6a5-fd69-3ad3-ab19-06679c2d007a.json
index 5143496..5143496 100644
--- a/test/data/enm/study-FCSV-1a71d2b3-8121-3790-a66b-774b12829bb3.json
+++ b/test/data/enm/study-FCSV-fabda6a5-fd69-3ad3-ab19-06679c2d007a.json
diff --git a/test/data/enm/study-FCSV-80a36fc5-9a73-358c-829b-2e69eea82125.json b/test/data/enm/study-FCSV-facda1fb-5ce1-300f-991e-c14c1f2e743e.json
index 44dba6a..44dba6a 100644
--- a/test/data/enm/study-FCSV-80a36fc5-9a73-358c-829b-2e69eea82125.json
+++ b/test/data/enm/study-FCSV-facda1fb-5ce1-300f-991e-c14c1f2e743e.json
diff --git a/test/data/enm/study-FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7.json b/test/data/enm/study-FCSV-fad29dbf-bf5c-3bbf-b7ec-88a2adb1b3df.json
index 52759ec..52759ec 100644
--- a/test/data/enm/study-FCSV-ccd3915e-0b1d-38f4-98b3-02b1a16aace7.json
+++ b/test/data/enm/study-FCSV-fad29dbf-bf5c-3bbf-b7ec-88a2adb1b3df.json
diff --git a/test/data/enm/study-FCSV-fb11204e-7c00-3833-ac99-2d4552f65de1.json b/test/data/enm/study-FCSV-fb11204e-7c00-3833-ac99-2d4552f65de1.json
new file mode 100644
index 0000000..46dc5b9
--- /dev/null
+++ b/test/data/enm/study-FCSV-fb11204e-7c00-3833-ac99-2d4552f65de1.json
@@ -0,0 +1,169 @@
+{
+  "uuid": "FCSV-fb11204e-7c00-3833-ac99-2d4552f65de1",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "DLS",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)",
+    "Type of method": "DLS",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 43.59,
+        "errQualifier": "sd",
+        "errorValue": 0.9
+      }
+    },
+    {
+      "endpoint": "Z-Average Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "mean",
+        "loValue": 60.9,
+        "errQualifier": "sd",
+        "errorValue": 2.05
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 43.89,
+        "errQualifier": "sd",
+        "errorValue": 1.12
+      }
+    },
+    {
+      "endpoint": "Volume Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 93.1,
+        "errQualifier": "sd",
+        "errorValue": 79.26
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.87,
+        "errQualifier": "sd",
+        "errorValue": 1.35
+      }
+    },
+    {
+      "endpoint": "Number Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 46.89,
+        "errQualifier": "sd",
+        "errorValue": 9.33
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": " ",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 45.87,
+        "errQualifier": "sd",
+        "errorValue": 0.8
+      }
+    },
+    {
+      "endpoint": "Intensity Mean Hydrodynamic Diameter",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)",
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 77.13,
+        "errQualifier": "sd",
+        "errorValue": 15.76
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0.json b/test/data/enm/study-FCSV-fb4f098c-e631-3bd9-bbf7-f3ee6e70756d.json
index 0216060..0216060 100644
--- a/test/data/enm/study-FCSV-0542c513-7015-3169-a1c1-e00f811a7ba0.json
+++ b/test/data/enm/study-FCSV-fb4f098c-e631-3bd9-bbf7-f3ee6e70756d.json
diff --git a/test/data/enm/study-FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785.json b/test/data/enm/study-FCSV-fbf7945b-143d-3838-958d-504eefff1270.json
index 13c8c9a..13c8c9a 100644
--- a/test/data/enm/study-FCSV-ceed5aa6-a62e-3202-9bcf-702a94d34785.json
+++ b/test/data/enm/study-FCSV-fbf7945b-143d-3838-958d-504eefff1270.json
diff --git a/test/data/enm/study-FCSV-fc4ce3f1-487a-308b-be6a-c04bb6a46d99.json b/test/data/enm/study-FCSV-fc4ce3f1-487a-308b-be6a-c04bb6a46d99.json
new file mode 100644
index 0000000..2889755
--- /dev/null
+++ b/test/data/enm/study-FCSV-fc4ce3f1-487a-308b-be6a-c04bb6a46d99.json
@@ -0,0 +1,85 @@
+{
+  "uuid": "FCSV-fc4ce3f1-487a-308b-be6a-c04bb6a46d99",
+  "owner": {
+    "substance": {
+      "uuid": "FCSV-fb5e6048-8ee1-351d-915b-d1669681357e"
+    },
+    "company": {
+      "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319",
+      "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv"
+    }
+  },
+  "citation": {
+    "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv",
+    "year": "2014",
+    "owner": null
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_UNKNOWN_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.99 Physico chemical properties (other)"
+    },
+    "endpoint": "Ellman depletion assay",
+    "guideline": [
+      "doi: 10.1021/nn406018q"
+    ]
+  },
+  "parameters": {
+    "Type of method": "Serum.density",
+    "testmat_form": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Autot (ICP-AES)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "nmol",
+        "loQualifier": "mean",
+        "loValue": 257.832,
+        "errQualifier": "sd",
+        "errorValue": 30.368
+      }
+    },
+    {
+      "endpoint": "Total surface area (SAtot)",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "cm^2",
+        "loQualifier": "mean",
+        "loValue": 11,
+        "errQualifier": "sd",
+        "errorValue": 1
+      }
+    },
+    {
+      "endpoint": "Protein density",
+      "conditions": {
+        "MEDIUM": "Human serum (Sigma #H4522)"
+      },
+      "result": {
+        "unit": "ug/cm^2",
+        "loQualifier": "mean",
+        "loValue": 0.0,
+        "errQualifier": "sem",
+        "errorValue": 0.009
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb.json b/test/data/enm/study-FCSV-fc70adf1-c42b-3a90-9437-a73ce3cae3c9.json
index 20d75f5..20d75f5 100644
--- a/test/data/enm/study-FCSV-130b04ab-86e6-38d6-9276-e2db1b4dcffb.json
+++ b/test/data/enm/study-FCSV-fc70adf1-c42b-3a90-9437-a73ce3cae3c9.json
diff --git a/test/data/enm/study-FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c.json b/test/data/enm/study-FCSV-fc81ca0a-7b41-354a-801b-ee7a21d0ac3b.json
index c8c8468..c8c8468 100644
--- a/test/data/enm/study-FCSV-ff7d2c8c-3d2f-316a-b890-6f9e7d88df4c.json
+++ b/test/data/enm/study-FCSV-fc81ca0a-7b41-354a-801b-ee7a21d0ac3b.json
diff --git a/test/data/enm/study-FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec.json b/test/data/enm/study-FCSV-fc9c0a2c-479b-3ba5-9048-137b94e16557.json
index c69f7ee..c69f7ee 100644
--- a/test/data/enm/study-FCSV-de7a4a31-ee94-313e-bfc4-acc11f0b56ec.json
+++ b/test/data/enm/study-FCSV-fc9c0a2c-479b-3ba5-9048-137b94e16557.json
diff --git a/test/data/enm/study-FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf.json b/test/data/enm/study-FCSV-fca5ddde-dad3-3682-9116-e43fe52af3b2.json
index 1e14799..1e14799 100644
--- a/test/data/enm/study-FCSV-9df9ed76-5f94-3ecb-b661-a56e168a71bf.json
+++ b/test/data/enm/study-FCSV-fca5ddde-dad3-3682-9116-e43fe52af3b2.json
diff --git a/test/data/enm/study-FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13.json b/test/data/enm/study-FCSV-fd148a7f-b3e9-3fb4-a4c9-7541c2416a0a.json
index 48d5e18..48d5e18 100644
--- a/test/data/enm/study-FCSV-3c5fb4b0-2e4e-3dae-9eb2-1dbfd202cd13.json
+++ b/test/data/enm/study-FCSV-fd148a7f-b3e9-3fb4-a4c9-7541c2416a0a.json
diff --git a/test/data/enm/study-FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073.json b/test/data/enm/study-FCSV-fd4a2814-b9df-338b-b571-8a7500628983.json
index 24cf114..24cf114 100644
--- a/test/data/enm/study-FCSV-ae94c9b5-ffeb-3b3b-8464-1dfe3dbde073.json
+++ b/test/data/enm/study-FCSV-fd4a2814-b9df-338b-b571-8a7500628983.json
diff --git a/test/data/enm/study-FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05.json b/test/data/enm/study-FCSV-fdaa21d2-36e8-3e34-bb72-e32cce4212c7.json
index 2436bce..2436bce 100644
--- a/test/data/enm/study-FCSV-4683cde2-ec2e-3a2e-974a-3ba15cd79d05.json
+++ b/test/data/enm/study-FCSV-fdaa21d2-36e8-3e34-bb72-e32cce4212c7.json
diff --git a/test/data/enm/study-FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c.json b/test/data/enm/study-FCSV-fdd959ad-00df-3a0a-b755-afa14c7c011e.json
index f223e32..f223e32 100644
--- a/test/data/enm/study-FCSV-0588dd9b-6227-307f-9e6a-6b07d4717e8c.json
+++ b/test/data/enm/study-FCSV-fdd959ad-00df-3a0a-b755-afa14c7c011e.json
diff --git a/test/data/enm/study-FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485.json b/test/data/enm/study-FCSV-fe0a51cd-121d-3dd9-9ca4-3094a6eda4b3.json
index 5c228b0..5c228b0 100644
--- a/test/data/enm/study-FCSV-cf1d4fd3-f16b-3680-96fa-0f5e4b9dd485.json
+++ b/test/data/enm/study-FCSV-fe0a51cd-121d-3dd9-9ca4-3094a6eda4b3.json
diff --git a/test/data/enm/study-FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6.json b/test/data/enm/study-FCSV-fe58966e-942d-3ae1-a6d8-4a4cc46514d4.json
index d8bdbc2..d8bdbc2 100644
--- a/test/data/enm/study-FCSV-9a56b1e5-2e22-31c4-b979-e8e9fee728c6.json
+++ b/test/data/enm/study-FCSV-fe58966e-942d-3ae1-a6d8-4a4cc46514d4.json
diff --git a/test/data/enm/study-FCSV-8619e6db-2c01-389e-b05b-e75273d18359.json b/test/data/enm/study-FCSV-fe601d8d-c5e0-3c1a-8c6c-185d6a8503e0.json
index 310dbce..310dbce 100644
--- a/test/data/enm/study-FCSV-8619e6db-2c01-389e-b05b-e75273d18359.json
+++ b/test/data/enm/study-FCSV-fe601d8d-c5e0-3c1a-8c6c-185d6a8503e0.json
diff --git a/test/data/enm/study-FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567.json b/test/data/enm/study-FCSV-fe64d3f4-a889-3a69-b9f7-d8150979973c.json
index c4c7a2d..c4c7a2d 100644
--- a/test/data/enm/study-FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567.json
+++ b/test/data/enm/study-FCSV-fe64d3f4-a889-3a69-b9f7-d8150979973c.json
diff --git a/test/data/enm/study-FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa.json b/test/data/enm/study-FCSV-fe7c91b9-fdbd-3d87-9625-0c424f1069cd.json
index b96bb88..b96bb88 100644
--- a/test/data/enm/study-FCSV-d6c56b3e-71a2-330b-92b6-9c90e6046eaa.json
+++ b/test/data/enm/study-FCSV-fe7c91b9-fdbd-3d87-9625-0c424f1069cd.json
diff --git a/test/data/enm/study-FCSV-1842b3a2-413c-327c-a07a-9905269bafb5.json b/test/data/enm/study-FCSV-fe8bcaee-7e6a-3007-a05f-7494e419a5ff.json
index 9da8ea2..9da8ea2 100644
--- a/test/data/enm/study-FCSV-1842b3a2-413c-327c-a07a-9905269bafb5.json
+++ b/test/data/enm/study-FCSV-fe8bcaee-7e6a-3007-a05f-7494e419a5ff.json
diff --git a/test/data/enm/study-FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13.json b/test/data/enm/study-FCSV-fe8ecf8c-598a-317a-a1c6-c4c68ce8d41f.json
index 5587c68..5587c68 100644
--- a/test/data/enm/study-FCSV-50aee86c-a3a2-3c46-86bf-5ac25485fc13.json
+++ b/test/data/enm/study-FCSV-fe8ecf8c-598a-317a-a1c6-c4c68ce8d41f.json
diff --git a/test/data/enm/study-FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980.json b/test/data/enm/study-FCSV-fed44575-1149-3edd-b60c-3fd3198a70f5.json
index 48a6048..48a6048 100644
--- a/test/data/enm/study-FCSV-bc2c755f-9eee-30e3-9e98-1fbb2397c980.json
+++ b/test/data/enm/study-FCSV-fed44575-1149-3edd-b60c-3fd3198a70f5.json
diff --git a/test/data/enm/study-FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b.json b/test/data/enm/study-FCSV-feec98d2-1cbf-35fe-9e7e-74c29419bffb.json
index 5170089..5170089 100644
--- a/test/data/enm/study-FCSV-3adf8c83-83b1-3ffa-8868-b8527d83923b.json
+++ b/test/data/enm/study-FCSV-feec98d2-1cbf-35fe-9e7e-74c29419bffb.json
diff --git a/test/data/enm/study-FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0.json b/test/data/enm/study-FCSV-fef12269-a821-39fa-a27b-cfc79cf3e4a1.json
index 1d90d55..1d90d55 100644
--- a/test/data/enm/study-FCSV-2ed7ebf8-d11d-3f39-8f05-b0132ec4d7e0.json
+++ b/test/data/enm/study-FCSV-fef12269-a821-39fa-a27b-cfc79cf3e4a1.json
diff --git a/test/data/enm/study-FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf.json b/test/data/enm/study-FCSV-ff2c239d-6cef-3fef-9127-1d2ece5e829a.json
index ed2c7b8..ed2c7b8 100644
--- a/test/data/enm/study-FCSV-2de5071e-596b-3507-84fc-f9ba470cbcbf.json
+++ b/test/data/enm/study-FCSV-ff2c239d-6cef-3fef-9127-1d2ece5e829a.json
diff --git a/test/data/enm/study-FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb.json b/test/data/enm/study-FCSV-ff43c20e-cbe2-359c-8283-e87c573886ae.json
index 45e0d5b..45e0d5b 100644
--- a/test/data/enm/study-FCSV-a7dbc5da-6ccd-3df5-b2f1-467f625a08cb.json
+++ b/test/data/enm/study-FCSV-ff43c20e-cbe2-359c-8283-e87c573886ae.json
diff --git a/test/data/enm/study-FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002.json b/test/data/enm/study-FCSV-ff7c5306-71cd-383e-aacd-96d251f34d0b.json
index 64bdc3a..64bdc3a 100644
--- a/test/data/enm/study-FCSV-5b29295c-f2ab-3e5a-bb32-37caac38b002.json
+++ b/test/data/enm/study-FCSV-ff7c5306-71cd-383e-aacd-96d251f34d0b.json
diff --git a/test/data/enm/study-FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819.json b/test/data/enm/study-FCSV-ff92640c-4229-35e3-aede-d7a8f36ee365.json
index 75e4c25..75e4c25 100644
--- a/test/data/enm/study-FCSV-bc77c03d-4e75-3fab-bb3d-17b983663819.json
+++ b/test/data/enm/study-FCSV-ff92640c-4229-35e3-aede-d7a8f36ee365.json
diff --git a/test/data/enm/study-IUC5-49179f2f-867c-4e7c-8fd1-d09eb23c4c3d.json b/test/data/enm/study-IUC5-49179f2f-867c-4e7c-8fd1-d09eb23c4c3d.json
new file mode 100644
index 0000000..9285fed
--- /dev/null
+++ b/test/data/enm/study-IUC5-49179f2f-867c-4e7c-8fd1-d09eb23c4c3d.json
@@ -0,0 +1,68 @@
+{
+  "uuid": "IUC5-49179f2f-867c-4e7c-8fd1-d09eb23c4c3d",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "2006",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "TO_ACUTE_ORAL_SECTION",
+      "term": "http://purl.enanomapper.org/onto/ENM_0000020",
+      "title": "7.2.1 Acute toxicity - oral"
+    },
+    "endpoint": "Acute toxicity: oral.001",
+    "guideline": [
+      "OECD Guideline 423 (Acute Oral toxicity - Acute Toxic Class Method)"
+    ]
+  },
+  "parameters": {
+    "Sex": "female",
+    "Species": "rat"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": "1 (reliable without restriction)"
+  },
+  "interpretation": {
+    "result": "practically nontoxic"
+  },
+  "effects": [
+    {
+      "endpoint": "LDLo",
+      "conditions": {
+        "Sex": "female"
+      },
+      "result": {
+        "unit": "mg/kg bw",
+        "loQualifier": ">=",
+        "loValue": 2000
+      }
+    },
+    {
+      "endpoint": "LD50 cut-off ",
+      "conditions": {
+        "Sex": "female"
+      },
+      "result": {
+        "unit": "mg/kg bw",
+        "loQualifier": ">=",
+        "loValue": 5000
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-4bca14fc-3e43-435e-a06e-d924fc77bded.json b/test/data/enm/study-IUC5-4bca14fc-3e43-435e-a06e-d924fc77bded.json
new file mode 100644
index 0000000..edea576
--- /dev/null
+++ b/test/data/enm/study-IUC5-4bca14fc-3e43-435e-a06e-d924fc77bded.json
@@ -0,0 +1,115 @@
+{
+  "uuid": "IUC5-4bca14fc-3e43-435e-a06e-d924fc77bded",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "2011",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle size distribution (Granulometry).001",
+    "guideline": [
+      "Transmission Electron Microscopy (TEM)"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": "imaging technique",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": "2 (reliable with restrictions)"
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN DIAMETER",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": {
+          "loValue": null
+        },
+        "SEQ_NUM": {
+          "loValue": null
+        },
+        "STD_DEV": {
+          "loValue": null
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 3,
+        "upQualifier": "<",
+        "upValue": 20
+      }
+    },
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": null,
+        "Remark": {
+          "loValue": null
+        },
+        "SEQ_NUM": {
+          "loValue": null
+        },
+        "STD_DEV": {
+          "Class": "GEOMETRIC STANDARD DEVIATION",
+          "isResult": "true",
+          "loQualifier": null,
+          "loValue": null,
+          "upQualifier": null
+        }
+      },
+      "result": {
+        "unit": null
+      }
+    },
+    {
+      "endpoint": "PARTICLE SIZE.D90",
+      "conditions": {
+        "PHRASEOTHER_PERCENTILE": {
+          "loQualifier": "  ",
+          "loValue": "D90"
+        },
+        "Remark": {
+          "loValue": null
+        },
+        "SEQ_NUM": {
+          "loValue": null
+        },
+        "STD_DEV": {
+          "loValue": null
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": "",
+        "loValue": 12.7,
+        "upQualifier": "",
+        "textValue": ""
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-4d6e67a8-4301-4e6a-bafc-20e20fbaf2ad.json b/test/data/enm/study-IUC5-4d6e67a8-4301-4e6a-bafc-20e20fbaf2ad.json
new file mode 100644
index 0000000..5f17930
--- /dev/null
+++ b/test/data/enm/study-IUC5-4d6e67a8-4301-4e6a-bafc-20e20fbaf2ad.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "IUC5-4d6e67a8-4301-4e6a-bafc-20e20fbaf2ad",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "2006",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific surface area.001",
+    "guideline": [
+      "DIN66131"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": "BET"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": "2 (reliable with restrictions)"
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null,
+        "STD_DEV": {
+        }
+      },
+      "result": {
+        "unit": "m²/g",
+        "loQualifier": "",
+        "loValue": 253,
+        "upQualifier": ""
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-6bdaad41-66c2-4d24-99ee-8d579243ddd9.json b/test/data/enm/study-IUC5-6bdaad41-66c2-4d24-99ee-8d579243ddd9.json
new file mode 100644
index 0000000..c2d07ab
--- /dev/null
+++ b/test/data/enm/study-IUC5-6bdaad41-66c2-4d24-99ee-8d579243ddd9.json
@@ -0,0 +1,71 @@
+{
+  "uuid": "IUC5-6bdaad41-66c2-4d24-99ee-8d579243ddd9",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": "Thurnherr, T. et al.",
+    "year": "2011",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "TO_GENETIC_IN_VITRO_SECTION",
+      "term": "http://www.bioassayontology.org/bao#BAO_0002167",
+      "title": "7.6.1 Genetic toxicity in vitro"
+    },
+    "endpoint": "Exp Supporting Genetic toxicity in vitro.008",
+    "guideline": [
+      null
+    ]
+  },
+  "parameters": {
+    "Metabolic activation system": null,
+    "Species": "human pulmonary epithelial cell line A549",
+    "Target gene": null,
+    "Type of genotoxicity": "chromosome and DNA damage",
+    "Type of study": "Micronucleus test in vitro (MNvit) and Comet assay in vitro"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "supporting study",
+    "r_studyResultType": "experimental result",
+    "r_value": "other:"
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "GENOTOXICITY",
+      "conditions": {
+        "Metabolic activation": "without",
+        "Species": "A549"
+      },
+      "result": {
+        "unit": null,
+        "textValue": "negative"
+      }
+    },
+    {
+      "endpoint": "GENOTOXICITY",
+      "conditions": {
+        "Metabolic activation": "without",
+        "Species": "A549"
+      },
+      "result": {
+        "unit": null,
+        "textValue": "negative"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-708684e4-4e3b-49cd-92ec-9fc2f3a4dc14.json b/test/data/enm/study-IUC5-708684e4-4e3b-49cd-92ec-9fc2f3a4dc14.json
new file mode 100644
index 0000000..b8de91e
--- /dev/null
+++ b/test/data/enm/study-IUC5-708684e4-4e3b-49cd-92ec-9fc2f3a4dc14.json
@@ -0,0 +1,129 @@
+{
+  "uuid": "IUC5-708684e4-4e3b-49cd-92ec-9fc2f3a4dc14",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "2010",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta potential.001",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": "2 (reliable with restrictions)"
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "STD_DEV": {
+          "loValue": 2.9,
+          "unit": ""
+        },
+        "pH": {
+          "loValue": "1.9"
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "",
+        "loValue": 41.4,
+        "upQualifier": ""
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "STD_DEV": {
+          "loValue": 1.5,
+          "unit": ""
+        },
+        "pH": {
+          "loValue": "2.99"
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "",
+        "loValue": 39.3,
+        "upQualifier": ""
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "STD_DEV": {
+          "loValue": 6.5,
+          "unit": ""
+        },
+        "pH": {
+          "loValue": "4.26"
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "",
+        "loValue": 21.4,
+        "upQualifier": ""
+      }
+    },
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "STD_DEV": {
+          "loValue": 1.7,
+          "unit": ""
+        },
+        "pH": {
+          "loValue": "5.04"
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loQualifier": "",
+        "loValue": 34.5,
+        "upQualifier": ""
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-74e91cde-2ffa-43ec-8fcd-5d6407f1602c.json b/test/data/enm/study-IUC5-74e91cde-2ffa-43ec-8fcd-5d6407f1602c.json
new file mode 100644
index 0000000..ec4e227
--- /dev/null
+++ b/test/data/enm/study-IUC5-74e91cde-2ffa-43ec-8fcd-5d6407f1602c.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "IUC5-74e91cde-2ffa-43ec-8fcd-5d6407f1602c",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "2008",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "DUSTINESS_SECTION",
+      "term": "http://purl.enanomapper.org/onto/ENM_9000003",
+      "title": "4.31 Nanomaterial dustiness"
+    },
+    "endpoint": "Dustiness.001",
+    "guideline": [
+      "DIN 33897-2 (2002) Workplace atmospheres - Determination of the dustiness of bulk materials - Part 2:Continuous Drop (note: SUPERSEDED by EN 1505:2006)"
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": "continuous drop"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": ""
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DUSTINESS INDEX",
+      "conditions": {
+        "STD_DEV": {
+        }
+      },
+      "result": {
+        "unit": null
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-9db5f020-e0fa-47c8-8e61-3eeb8038e279.json b/test/data/enm/study-IUC5-9db5f020-e0fa-47c8-8e61-3eeb8038e279.json
new file mode 100644
index 0000000..1523c0d
--- /dev/null
+++ b/test/data/enm/study-IUC5-9db5f020-e0fa-47c8-8e61-3eeb8038e279.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "IUC5-9db5f020-e0fa-47c8-8e61-3eeb8038e279",
+  "owner": {
+    "substance": {
+      "uuid": "IUC5-5f313d1f-4129-499c-abbe-ac18642e2471"
+    },
+    "company": {
+      "uuid": "IUC5-354430c7-746e-450e-9722-09788eb90a29",
+      "name": "Ideaconsult Ltd. / Sofia / Bulgaria"
+    }
+  },
+  "citation": {
+    "title": "Ragot J, Voetz M ",
+    "year": "2010",
+    "owner": ""
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "GI_GENERAL_INFORM_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.1 Appearance"
+    },
+    "endpoint": "Appearance/physical state/colour.001",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": "key study",
+    "r_studyResultType": "experimental result",
+    "r_value": "2 (reliable with restrictions)"
+  },
+  "interpretation": {
+    "result": "inorganic"
+  },
+  "effects": [
+    {
+      "endpoint": "solid",
+      "conditions": {
+        "Remark": "nanomaterial"
+      },
+      "result": {
+        "unit": null
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-IUC5-5f313d1f-4129-499c-abbe-ac18642e2471.json b/test/data/enm/study-IUC5-f6eb018b-2dc5-462b-be29-a6ffce0fd4d4.json
index b393b4d..b393b4d 100644
--- a/test/data/enm/study-IUC5-5f313d1f-4129-499c-abbe-ac18642e2471.json
+++ b/test/data/enm/study-IUC5-f6eb018b-2dc5-462b-be29-a6ffce0fd4d4.json
diff --git a/test/data/enm/study-NWKI-001eeffd-a257-4e01-9f59-cd7e4585bc43.json b/test/data/enm/study-NWKI-001eeffd-a257-4e01-9f59-cd7e4585bc43.json
new file mode 100644
index 0000000..b575ad9
--- /dev/null
+++ b/test/data/enm/study-NWKI-001eeffd-a257-4e01-9f59-cd7e4585bc43.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-001eeffd-a257-4e01-9f59-cd7e4585bc43",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-90869553-c8fe-3ef6-8e68-47f392958127"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.09
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0068416d-360e-4569-8529-b81e33d7879f.json b/test/data/enm/study-NWKI-0068416d-360e-4569-8529-b81e33d7879f.json
new file mode 100644
index 0000000..73d3608
--- /dev/null
+++ b/test/data/enm/study-NWKI-0068416d-360e-4569-8529-b81e33d7879f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-0068416d-360e-4569-8529-b81e33d7879f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3481f716-18fa-39b3-aa54-4acb67877194"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-01254983-14c9-4ff4-a6ab-8a88470c4dc7.json b/test/data/enm/study-NWKI-01254983-14c9-4ff4-a6ab-8a88470c4dc7.json
new file mode 100644
index 0000000..3ac12b6
--- /dev/null
+++ b/test/data/enm/study-NWKI-01254983-14c9-4ff4-a6ab-8a88470c4dc7.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-01254983-14c9-4ff4-a6ab-8a88470c4dc7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 96
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-01266bd1-a36a-47d2-bab4-a3fc99f296d4.json b/test/data/enm/study-NWKI-01266bd1-a36a-47d2-bab4-a3fc99f296d4.json
new file mode 100644
index 0000000..0d8b8ec
--- /dev/null
+++ b/test/data/enm/study-NWKI-01266bd1-a36a-47d2-bab4-a3fc99f296d4.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-01266bd1-a36a-47d2-bab4-a3fc99f296d4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-13b28611-c05b-325b-9e60-182c49b2a288"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 1,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-74c6a1ca-f415-3c86-9437-446299eb5e40.json b/test/data/enm/study-NWKI-01486dcf-1529-4177-87cc-3ac2968d7604.json
index 0231609..0231609 100644
--- a/test/data/enm/study-NWKI-74c6a1ca-f415-3c86-9437-446299eb5e40.json
+++ b/test/data/enm/study-NWKI-01486dcf-1529-4177-87cc-3ac2968d7604.json
diff --git a/test/data/enm/study-NWKI-01a7905b-d076-404a-b426-406c5eab5b7c.json b/test/data/enm/study-NWKI-01a7905b-d076-404a-b426-406c5eab5b7c.json
new file mode 100644
index 0000000..6b329c7
--- /dev/null
+++ b/test/data/enm/study-NWKI-01a7905b-d076-404a-b426-406c5eab5b7c.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-01a7905b-d076-404a-b426-406c5eab5b7c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0d776d00-aec4-3a75-9eb3-453909fc50ed"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "ArabinoGalactanCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Arabino_Galactan"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Arabino_Galactan"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-01ce05e5-80aa-4d3f-84cb-44039ca74d22.json b/test/data/enm/study-NWKI-01ce05e5-80aa-4d3f-84cb-44039ca74d22.json
new file mode 100644
index 0000000..b823f97
--- /dev/null
+++ b/test/data/enm/study-NWKI-01ce05e5-80aa-4d3f-84cb-44039ca74d22.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-01ce05e5-80aa-4d3f-84cb-44039ca74d22",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-37a99dad-2a53-3076-b21f-d078b89fb4fb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SiO2"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "SiO2"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "APS_Coating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "APS"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "APS"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-02115f25-e680-41b1-b509-91a9aa73033f.json b/test/data/enm/study-NWKI-02115f25-e680-41b1-b509-91a9aa73033f.json
new file mode 100644
index 0000000..816c6ae
--- /dev/null
+++ b/test/data/enm/study-NWKI-02115f25-e680-41b1-b509-91a9aa73033f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-02115f25-e680-41b1-b509-91a9aa73033f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b8a44a2-b835-3f75-903c-cf0a71a247c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 40,
+        "upQualifier": "<=",
+        "upValue": 80
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d52e3489-851d-3eeb-b887-9a595cc9adfe.json b/test/data/enm/study-NWKI-0225a419-5e74-4fa8-8939-a2cf688547c9.json
index 492c535..492c535 100644
--- a/test/data/enm/study-NWKI-d52e3489-851d-3eeb-b887-9a595cc9adfe.json
+++ b/test/data/enm/study-NWKI-0225a419-5e74-4fa8-8939-a2cf688547c9.json
diff --git a/test/data/enm/study-NWKI-02443f5b-63fc-40d4-82a7-d8fb8705d72e.json b/test/data/enm/study-NWKI-02443f5b-63fc-40d4-82a7-d8fb8705d72e.json
new file mode 100644
index 0000000..1a69680
--- /dev/null
+++ b/test/data/enm/study-NWKI-02443f5b-63fc-40d4-82a7-d8fb8705d72e.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-02443f5b-63fc-40d4-82a7-d8fb8705d72e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a855e2c5-73f1-32c0-8a87-aa521fd69928.json b/test/data/enm/study-NWKI-02e70892-6694-4917-abc4-04073abdfae8.json
index e80fe03..e80fe03 100644
--- a/test/data/enm/study-NWKI-a855e2c5-73f1-32c0-8a87-aa521fd69928.json
+++ b/test/data/enm/study-NWKI-02e70892-6694-4917-abc4-04073abdfae8.json
diff --git a/test/data/enm/study-NWKI-1b7ce9a9-7e13-30d8-a5c2-f8008ba3c38f.json b/test/data/enm/study-NWKI-0352bf48-fe8a-4121-a3c8-c996b2c7416b.json
index 4f72fb2..4f72fb2 100644
--- a/test/data/enm/study-NWKI-1b7ce9a9-7e13-30d8-a5c2-f8008ba3c38f.json
+++ b/test/data/enm/study-NWKI-0352bf48-fe8a-4121-a3c8-c996b2c7416b.json
diff --git a/test/data/enm/study-NWKI-037a45cf-b93d-4621-a584-a77e5b4ed359.json b/test/data/enm/study-NWKI-037a45cf-b93d-4621-a584-a77e5b4ed359.json
new file mode 100644
index 0000000..a81ee66
--- /dev/null
+++ b/test/data/enm/study-NWKI-037a45cf-b93d-4621-a584-a77e5b4ed359.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-037a45cf-b93d-4621-a584-a77e5b4ed359",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-674cfd7c-bc77-36c7-bbe0-d52dd0233d64"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 50,
+        "upQualifier": "<=",
+        "upValue": 245
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-03c2146b-f531-4e6e-9092-c1faf2894574.json b/test/data/enm/study-NWKI-03c2146b-f531-4e6e-9092-c1faf2894574.json
new file mode 100644
index 0000000..bc3a9d2
--- /dev/null
+++ b/test/data/enm/study-NWKI-03c2146b-f531-4e6e-9092-c1faf2894574.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-03c2146b-f531-4e6e-9092-c1faf2894574",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6cab56b4-69d9-36e0-8c17-f467d08b2555"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH-2DPVA"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-040aa132-1030-4a06-80a9-e70d75d68429.json b/test/data/enm/study-NWKI-040aa132-1030-4a06-80a9-e70d75d68429.json
new file mode 100644
index 0000000..5dc4e35
--- /dev/null
+++ b/test/data/enm/study-NWKI-040aa132-1030-4a06-80a9-e70d75d68429.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-040aa132-1030-4a06-80a9-e70d75d68429",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 500,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-040afb18-8fc4-4be2-8d1a-35f506470c0a.json b/test/data/enm/study-NWKI-040afb18-8fc4-4be2-8d1a-35f506470c0a.json
new file mode 100644
index 0000000..7b5a061
--- /dev/null
+++ b/test/data/enm/study-NWKI-040afb18-8fc4-4be2-8d1a-35f506470c0a.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-040afb18-8fc4-4be2-8d1a-35f506470c0a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-19b5dfef-0d95-3878-9075-2897e8631277"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3390/ijerph110908867",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20,
+        "errorValue": 4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-04792111-4a88-4b55-8c06-630900a232b4.json b/test/data/enm/study-NWKI-04792111-4a88-4b55-8c06-630900a232b4.json
new file mode 100644
index 0000000..15de0b5
--- /dev/null
+++ b/test/data/enm/study-NWKI-04792111-4a88-4b55-8c06-630900a232b4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-04792111-4a88-4b55-8c06-630900a232b4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bb2f1a47-0260-3271-b9c3-edb850d15be9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1039/C4FD00117F",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "Å",
+        "loQualifier": ">=",
+        "loValue": 25,
+        "upQualifier": "<=",
+        "upValue": 30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-04ce206c-a682-4005-8758-4afdb04152c1.json b/test/data/enm/study-NWKI-04ce206c-a682-4005-8758-4afdb04152c1.json
new file mode 100644
index 0000000..d71a52a
--- /dev/null
+++ b/test/data/enm/study-NWKI-04ce206c-a682-4005-8758-4afdb04152c1.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-04ce206c-a682-4005-8758-4afdb04152c1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 80
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-04db465c-6485-4cf7-ba99-79ebf0b8ed0b.json b/test/data/enm/study-NWKI-04db465c-6485-4cf7-ba99-79ebf0b8ed0b.json
new file mode 100644
index 0000000..d9575ce
--- /dev/null
+++ b/test/data/enm/study-NWKI-04db465c-6485-4cf7-ba99-79ebf0b8ed0b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-04db465c-6485-4cf7-ba99-79ebf0b8ed0b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-823e6217-d5b0-3c61-b886-768cfe726d38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65,
+        "errorValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-05229c6c-cb12-4dec-b919-4322f75c61a7.json b/test/data/enm/study-NWKI-05229c6c-cb12-4dec-b919-4322f75c61a7.json
new file mode 100644
index 0000000..a9f0835
--- /dev/null
+++ b/test/data/enm/study-NWKI-05229c6c-cb12-4dec-b919-4322f75c61a7.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-05229c6c-cb12-4dec-b919-4322f75c61a7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0534ae85-3e71-44df-bb0f-3250d66e566a.json b/test/data/enm/study-NWKI-0534ae85-3e71-44df-bb0f-3250d66e566a.json
new file mode 100644
index 0000000..7033f66
--- /dev/null
+++ b/test/data/enm/study-NWKI-0534ae85-3e71-44df-bb0f-3250d66e566a.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-0534ae85-3e71-44df-bb0f-3250d66e566a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DProtamine-2DRhodamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Protamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Protamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-05fe5e71-840f-4547-b1e5-0da0b4a50043.json b/test/data/enm/study-NWKI-05fe5e71-840f-4547-b1e5-0da0b4a50043.json
new file mode 100644
index 0000000..c542e8f
--- /dev/null
+++ b/test/data/enm/study-NWKI-05fe5e71-840f-4547-b1e5-0da0b4a50043.json
@@ -0,0 +1,54 @@
+{
+  "uuid": "NWKI-05fe5e71-840f-4547-b1e5-0da0b4a50043",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c93a144a-cd6d-3fe0-ab86-13adb168ccb1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_BOILING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000257",
+      "title": "4.3 Boiling point"
+    },
+    "endpoint": "Boiling Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Boiling point",
+      "conditions": {
+        "Atm. Pressure": null,
+        "Decomposition": null
+      },
+      "result": {
+        "unit": "Celsius",
+        "loValue": 2230
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0603f68c-d040-45ee-a86f-e286e0b42fba.json b/test/data/enm/study-NWKI-0603f68c-d040-45ee-a86f-e286e0b42fba.json
new file mode 100644
index 0000000..522cdbf
--- /dev/null
+++ b/test/data/enm/study-NWKI-0603f68c-d040-45ee-a86f-e286e0b42fba.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-0603f68c-d040-45ee-a86f-e286e0b42fba",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "cMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 206
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0721f8d0-f670-4579-90c7-6ceea91fa757.json b/test/data/enm/study-NWKI-0721f8d0-f670-4579-90c7-6ceea91fa757.json
new file mode 100644
index 0000000..8a1672a
--- /dev/null
+++ b/test/data/enm/study-NWKI-0721f8d0-f670-4579-90c7-6ceea91fa757.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-0721f8d0-f670-4579-90c7-6ceea91fa757",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5eff14ab-be8b-3f57-96fc-7ed09e7546b5.json b/test/data/enm/study-NWKI-07bdb9ac-d6b8-49ed-9e70-c0a4e689b500.json
index c6ecf72..c6ecf72 100644
--- a/test/data/enm/study-NWKI-5eff14ab-be8b-3f57-96fc-7ed09e7546b5.json
+++ b/test/data/enm/study-NWKI-07bdb9ac-d6b8-49ed-9e70-c0a4e689b500.json
diff --git a/test/data/enm/study-NWKI-07be4b7f-0887-463d-b691-f394d8ea38e9.json b/test/data/enm/study-NWKI-07be4b7f-0887-463d-b691-f394d8ea38e9.json
new file mode 100644
index 0000000..b6b0411
--- /dev/null
+++ b/test/data/enm/study-NWKI-07be4b7f-0887-463d-b691-f394d8ea38e9.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-07be4b7f-0887-463d-b691-f394d8ea38e9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d42892b8-9b57-30a2-aa89-af61880c337a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "SucroseCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Sucrose"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Sucrose"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-08af89f3-bfa5-4d48-b6f4-223f642ad984.json b/test/data/enm/study-NWKI-08af89f3-bfa5-4d48-b6f4-223f642ad984.json
new file mode 100644
index 0000000..ec5fe8c
--- /dev/null
+++ b/test/data/enm/study-NWKI-08af89f3-bfa5-4d48-b6f4-223f642ad984.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-08af89f3-bfa5-4d48-b6f4-223f642ad984",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ee237892-6184-3016-92af-b41dc14e9f9b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DNH2"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "NH2"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "[H]N[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "NH2"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-227a54df-573f-3515-8366-6bf1f17dd715.json b/test/data/enm/study-NWKI-08d213c8-9de2-402c-ac0a-91c76b9a1541.json
index d3b6a63..d3b6a63 100644
--- a/test/data/enm/study-NWKI-227a54df-573f-3515-8366-6bf1f17dd715.json
+++ b/test/data/enm/study-NWKI-08d213c8-9de2-402c-ac0a-91c76b9a1541.json
diff --git a/test/data/enm/study-NWKI-08e4b07b-144b-4d9c-9bf6-9d8228dd1846.json b/test/data/enm/study-NWKI-08e4b07b-144b-4d9c-9bf6-9d8228dd1846.json
new file mode 100644
index 0000000..eacd969
--- /dev/null
+++ b/test/data/enm/study-NWKI-08e4b07b-144b-4d9c-9bf6-9d8228dd1846.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-08e4b07b-144b-4d9c-9bf6-9d8228dd1846",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4beee533-65e4-364a-adb7-7a520180de61"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 34
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0b166019-f410-4706-9eea-e821785aede7.json b/test/data/enm/study-NWKI-0b166019-f410-4706-9eea-e821785aede7.json
new file mode 100644
index 0000000..455e9a4
--- /dev/null
+++ b/test/data/enm/study-NWKI-0b166019-f410-4706-9eea-e821785aede7.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-0b166019-f410-4706-9eea-e821785aede7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0fef8d9c-b0c4-3e41-88d0-b85cd538a796"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f90f7f33-091c-3d54-b313-213083c0e052.json b/test/data/enm/study-NWKI-0b35977c-affa-4eb8-9861-35beca1a42ad.json
index ef11bd4..ef11bd4 100644
--- a/test/data/enm/study-NWKI-f90f7f33-091c-3d54-b313-213083c0e052.json
+++ b/test/data/enm/study-NWKI-0b35977c-affa-4eb8-9861-35beca1a42ad.json
diff --git a/test/data/enm/study-NWKI-0b384935-1f9a-4fa2-8927-b1cdce466220.json b/test/data/enm/study-NWKI-0b384935-1f9a-4fa2-8927-b1cdce466220.json
new file mode 100644
index 0000000..83fec18
--- /dev/null
+++ b/test/data/enm/study-NWKI-0b384935-1f9a-4fa2-8927-b1cdce466220.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-0b384935-1f9a-4fa2-8927-b1cdce466220",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a33b26f0-2fc7-3aa1-9dd6-27380f725bfe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0b3cce4b-154f-44ce-ae76-d549863886c4.json b/test/data/enm/study-NWKI-0b3cce4b-154f-44ce-ae76-d549863886c4.json
new file mode 100644
index 0000000..6fb5bcf
--- /dev/null
+++ b/test/data/enm/study-NWKI-0b3cce4b-154f-44ce-ae76-d549863886c4.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-0b3cce4b-154f-44ce-ae76-d549863886c4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 96
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0b7e9c74-ed51-4702-9ba9-8c6c800fa192.json b/test/data/enm/study-NWKI-0b7e9c74-ed51-4702-9ba9-8c6c800fa192.json
new file mode 100644
index 0000000..a5ce315
--- /dev/null
+++ b/test/data/enm/study-NWKI-0b7e9c74-ed51-4702-9ba9-8c6c800fa192.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-0b7e9c74-ed51-4702-9ba9-8c6c800fa192",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0c083777-ee10-428d-b73a-d284574e691f.json b/test/data/enm/study-NWKI-0c083777-ee10-428d-b73a-d284574e691f.json
new file mode 100644
index 0000000..796f3b5
--- /dev/null
+++ b/test/data/enm/study-NWKI-0c083777-ee10-428d-b73a-d284574e691f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-0c083777-ee10-428d-b73a-d284574e691f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 286,
+        "errorValue": 2.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0c606592-8bc3-4922-b065-2df3dbfe66d7.json b/test/data/enm/study-NWKI-0c606592-8bc3-4922-b065-2df3dbfe66d7.json
new file mode 100644
index 0000000..9ac4be5
--- /dev/null
+++ b/test/data/enm/study-NWKI-0c606592-8bc3-4922-b065-2df3dbfe66d7.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-0c606592-8bc3-4922-b065-2df3dbfe66d7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2944da02-ade8-38cc-b547-504f6afcf25a.json b/test/data/enm/study-NWKI-0cb40fcb-8551-4cd3-953b-ac7e29928e05.json
index 1bf5330..1bf5330 100644
--- a/test/data/enm/study-NWKI-2944da02-ade8-38cc-b547-504f6afcf25a.json
+++ b/test/data/enm/study-NWKI-0cb40fcb-8551-4cd3-953b-ac7e29928e05.json
diff --git a/test/data/enm/study-NWKI-2bd4c991-b6fb-3eb3-8a0c-794607388b79.json b/test/data/enm/study-NWKI-0d65feb5-c903-4fdd-8c52-033527bcace7.json
index a27240f..a27240f 100644
--- a/test/data/enm/study-NWKI-2bd4c991-b6fb-3eb3-8a0c-794607388b79.json
+++ b/test/data/enm/study-NWKI-0d65feb5-c903-4fdd-8c52-033527bcace7.json
diff --git a/test/data/enm/study-NWKI-0e21641a-22b9-4bc8-97f5-54d6ca3ee00a.json b/test/data/enm/study-NWKI-0e21641a-22b9-4bc8-97f5-54d6ca3ee00a.json
new file mode 100644
index 0000000..5a44046
--- /dev/null
+++ b/test/data/enm/study-NWKI-0e21641a-22b9-4bc8-97f5-54d6ca3ee00a.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-0e21641a-22b9-4bc8-97f5-54d6ca3ee00a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 52,
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0e6ea55b-a5f0-4e1b-a6ac-be5048dd4299.json b/test/data/enm/study-NWKI-0e6ea55b-a5f0-4e1b-a6ac-be5048dd4299.json
new file mode 100644
index 0000000..15fc8b8
--- /dev/null
+++ b/test/data/enm/study-NWKI-0e6ea55b-a5f0-4e1b-a6ac-be5048dd4299.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-0e6ea55b-a5f0-4e1b-a6ac-be5048dd4299",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-506de59a-ae92-361b-a934-0fdfa41101c0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0e875328-7a36-4c40-b123-ceba2d7322b1.json b/test/data/enm/study-NWKI-0e875328-7a36-4c40-b123-ceba2d7322b1.json
new file mode 100644
index 0000000..fe8ebe4
--- /dev/null
+++ b/test/data/enm/study-NWKI-0e875328-7a36-4c40-b123-ceba2d7322b1.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-0e875328-7a36-4c40-b123-ceba2d7322b1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-674cfd7c-bc77-36c7-bbe0-d52dd0233d64"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0f073653-0c7b-422f-bb30-207c0d74f834.json b/test/data/enm/study-NWKI-0f073653-0c7b-422f-bb30-207c0d74f834.json
new file mode 100644
index 0000000..92c84e2
--- /dev/null
+++ b/test/data/enm/study-NWKI-0f073653-0c7b-422f-bb30-207c0d74f834.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-0f073653-0c7b-422f-bb30-207c0d74f834",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6821e372-3b17-3a56-8fac-f66115f24e5d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0f441ae1-e2e7-47e6-9199-bcb0333142fb.json b/test/data/enm/study-NWKI-0f441ae1-e2e7-47e6-9199-bcb0333142fb.json
new file mode 100644
index 0000000..bae656d
--- /dev/null
+++ b/test/data/enm/study-NWKI-0f441ae1-e2e7-47e6-9199-bcb0333142fb.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-0f441ae1-e2e7-47e6-9199-bcb0333142fb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5136670d-2925-31d0-8e12-811f8d67677f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 137,
+        "errorValue": 9.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0f714533-2dbe-4d3f-964b-6439e106f9a0.json b/test/data/enm/study-NWKI-0f714533-2dbe-4d3f-964b-6439e106f9a0.json
new file mode 100644
index 0000000..f974356
--- /dev/null
+++ b/test/data/enm/study-NWKI-0f714533-2dbe-4d3f-964b-6439e106f9a0.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-0f714533-2dbe-4d3f-964b-6439e106f9a0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0d6f156a-6ce8-3bac-97e3-b5d62ded7f4e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Ag"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ag"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEEECoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEEE"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SCCOCCOCCO"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "MEEE"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0fd9f570-8e2b-4ea0-b8d3-e710aa4a6dc6.json b/test/data/enm/study-NWKI-0fd9f570-8e2b-4ea0-b8d3-e710aa4a6dc6.json
new file mode 100644
index 0000000..840cb24
--- /dev/null
+++ b/test/data/enm/study-NWKI-0fd9f570-8e2b-4ea0-b8d3-e710aa4a6dc6.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-0fd9f570-8e2b-4ea0-b8d3-e710aa4a6dc6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ff85c0ea-c908-35c8-9f1c-bfd037800a31"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0fea1498-1740-4855-a77d-55ade5307ea5.json b/test/data/enm/study-NWKI-0fea1498-1740-4855-a77d-55ade5307ea5.json
new file mode 100644
index 0000000..eac0181
--- /dev/null
+++ b/test/data/enm/study-NWKI-0fea1498-1740-4855-a77d-55ade5307ea5.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-0fea1498-1740-4855-a77d-55ade5307ea5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -19.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-103813a2-d0f6-404e-a8e3-19328f87646c.json b/test/data/enm/study-NWKI-103813a2-d0f6-404e-a8e3-19328f87646c.json
new file mode 100644
index 0000000..e30d031
--- /dev/null
+++ b/test/data/enm/study-NWKI-103813a2-d0f6-404e-a8e3-19328f87646c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-103813a2-d0f6-404e-a8e3-19328f87646c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-072b1631-f6f1-3f47-a4dc-723aa4eb0700"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn200546k",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-10979332-7b4a-427c-8f60-ddd044c02a91.json b/test/data/enm/study-NWKI-10979332-7b4a-427c-8f60-ddd044c02a91.json
new file mode 100644
index 0000000..accdd96
--- /dev/null
+++ b/test/data/enm/study-NWKI-10979332-7b4a-427c-8f60-ddd044c02a91.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-10979332-7b4a-427c-8f60-ddd044c02a91",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-10fafc91-a412-4a1e-8434-40f70326e50e.json b/test/data/enm/study-NWKI-10fafc91-a412-4a1e-8434-40f70326e50e.json
new file mode 100644
index 0000000..c7df5cb
--- /dev/null
+++ b/test/data/enm/study-NWKI-10fafc91-a412-4a1e-8434-40f70326e50e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-10fafc91-a412-4a1e-8434-40f70326e50e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "PBS"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 120
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11640aa5-704e-4c6e-b85d-2006d4cfe282.json b/test/data/enm/study-NWKI-11640aa5-704e-4c6e-b85d-2006d4cfe282.json
new file mode 100644
index 0000000..cf97154
--- /dev/null
+++ b/test/data/enm/study-NWKI-11640aa5-704e-4c6e-b85d-2006d4cfe282.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-11640aa5-704e-4c6e-b85d-2006d4cfe282",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11826ae4-fd66-4f96-b3ee-05b4d9a35b2b.json b/test/data/enm/study-NWKI-11826ae4-fd66-4f96-b3ee-05b4d9a35b2b.json
new file mode 100644
index 0000000..83e0252
--- /dev/null
+++ b/test/data/enm/study-NWKI-11826ae4-fd66-4f96-b3ee-05b4d9a35b2b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-11826ae4-fd66-4f96-b3ee-05b4d9a35b2b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11c639bc-a4f6-48dd-b84f-c115cd68383f.json b/test/data/enm/study-NWKI-11c639bc-a4f6-48dd-b84f-c115cd68383f.json
new file mode 100644
index 0000000..4bf1642
--- /dev/null
+++ b/test/data/enm/study-NWKI-11c639bc-a4f6-48dd-b84f-c115cd68383f.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-11c639bc-a4f6-48dd-b84f-c115cd68383f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae0be5b8-266b-3b6a-825d-55f14b51cc99"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DArg7COOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "L-2DArginine-2D7-2DCOOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "L-2DArginine-2D7-2DCOOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11ce2c1b-a219-4fc7-841d-add4602b708b.json b/test/data/enm/study-NWKI-11ce2c1b-a219-4fc7-841d-add4602b708b.json
new file mode 100644
index 0000000..5eec69b
--- /dev/null
+++ b/test/data/enm/study-NWKI-11ce2c1b-a219-4fc7-841d-add4602b708b.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-11ce2c1b-a219-4fc7-841d-add4602b708b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3c8c8bb2-416f-3bff-862a-8433538cd4c5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": -20,
+        "upQualifier": "<=",
+        "upValue": 35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1256873c-3d55-42c7-a833-912946549b1b.json b/test/data/enm/study-NWKI-1256873c-3d55-42c7-a833-912946549b1b.json
new file mode 100644
index 0000000..d2e5783
--- /dev/null
+++ b/test/data/enm/study-NWKI-1256873c-3d55-42c7-a833-912946549b1b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-1256873c-3d55-42c7-a833-912946549b1b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1.6,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-12ba0164-b75b-4dfc-9571-cade11e8b178.json b/test/data/enm/study-NWKI-12ba0164-b75b-4dfc-9571-cade11e8b178.json
new file mode 100644
index 0000000..eea84a5
--- /dev/null
+++ b/test/data/enm/study-NWKI-12ba0164-b75b-4dfc-9571-cade11e8b178.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-12ba0164-b75b-4dfc-9571-cade11e8b178",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 50
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-12dd4a77-2368-4a9c-b7a3-2f786aaf3bab.json b/test/data/enm/study-NWKI-12dd4a77-2368-4a9c-b7a3-2f786aaf3bab.json
new file mode 100644
index 0000000..5407faf
--- /dev/null
+++ b/test/data/enm/study-NWKI-12dd4a77-2368-4a9c-b7a3-2f786aaf3bab.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-12dd4a77-2368-4a9c-b7a3-2f786aaf3bab",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-69b604fb-e892-31ba-a6f5-feb6cb04effb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DAF750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-12f2840e-a312-4d32-8e61-e204b0c782fc.json b/test/data/enm/study-NWKI-12f2840e-a312-4d32-8e61-e204b0c782fc.json
new file mode 100644
index 0000000..2194c45
--- /dev/null
+++ b/test/data/enm/study-NWKI-12f2840e-a312-4d32-8e61-e204b0c782fc.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-12f2840e-a312-4d32-8e61-e204b0c782fc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e6ef5597-a3f9-3f21-afff-db5f654ef534"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-133b31f5-75fb-4baa-9d21-20bbe6524d9d.json b/test/data/enm/study-NWKI-133b31f5-75fb-4baa-9d21-20bbe6524d9d.json
new file mode 100644
index 0000000..0e5166e
--- /dev/null
+++ b/test/data/enm/study-NWKI-133b31f5-75fb-4baa-9d21-20bbe6524d9d.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-133b31f5-75fb-4baa-9d21-20bbe6524d9d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1349c808-40d3-4a58-aeed-e86dd738690e.json b/test/data/enm/study-NWKI-1349c808-40d3-4a58-aeed-e86dd738690e.json
new file mode 100644
index 0000000..0e9e013
--- /dev/null
+++ b/test/data/enm/study-NWKI-1349c808-40d3-4a58-aeed-e86dd738690e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-1349c808-40d3-4a58-aeed-e86dd738690e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3ccb7313-0905-322a-ac62-09adb667bc0f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Average Length",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Average Length",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "μm",
+        "loQualifier": ">=",
+        "loValue": 5,
+        "upQualifier": "<=",
+        "upValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1384c6b9-9050-4f24-8a83-94f1ce913a4e.json b/test/data/enm/study-NWKI-1384c6b9-9050-4f24-8a83-94f1ce913a4e.json
new file mode 100644
index 0000000..3e95888
--- /dev/null
+++ b/test/data/enm/study-NWKI-1384c6b9-9050-4f24-8a83-94f1ce913a4e.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1384c6b9-9050-4f24-8a83-94f1ce913a4e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ff480524-2eb0-39e2-a449-47c026f09eb9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18.4,
+        "errorValue": 0.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-13e65857-d4ca-4c7a-803a-342b8fa4183b.json b/test/data/enm/study-NWKI-13e65857-d4ca-4c7a-803a-342b8fa4183b.json
new file mode 100644
index 0000000..ff62e37
--- /dev/null
+++ b/test/data/enm/study-NWKI-13e65857-d4ca-4c7a-803a-342b8fa4183b.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-13e65857-d4ca-4c7a-803a-342b8fa4183b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a0a7a86-fd00-3835-9795-a4da7d9d1544"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -11.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ede0d5b5-191a-3003-ac70-a97397ea7bb2.json b/test/data/enm/study-NWKI-13fbf7ad-6fc4-4b94-9a9d-3e66c612fa4c.json
index c35e987..c35e987 100644
--- a/test/data/enm/study-NWKI-ede0d5b5-191a-3003-ac70-a97397ea7bb2.json
+++ b/test/data/enm/study-NWKI-13fbf7ad-6fc4-4b94-9a9d-3e66c612fa4c.json
diff --git a/test/data/enm/study-NWKI-14265abe-890f-4648-83e6-9f148a05107f.json b/test/data/enm/study-NWKI-14265abe-890f-4648-83e6-9f148a05107f.json
new file mode 100644
index 0000000..2963c9b
--- /dev/null
+++ b/test/data/enm/study-NWKI-14265abe-890f-4648-83e6-9f148a05107f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-14265abe-890f-4648-83e6-9f148a05107f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2af8ed34-029d-3644-8327-23a596cfae0d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 200
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1540f00c-e7aa-4d25-ab3b-a6a05a7060cf.json b/test/data/enm/study-NWKI-1540f00c-e7aa-4d25-ab3b-a6a05a7060cf.json
new file mode 100644
index 0000000..dc930d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-1540f00c-e7aa-4d25-ab3b-a6a05a7060cf.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-1540f00c-e7aa-4d25-ab3b-a6a05a7060cf",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e518c122-5f4f-3611-8b30-56b671883e5c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amino_SPARK680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino_SPARK680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-157c1f0e-0344-4310-9fca-ac778f7c3501.json b/test/data/enm/study-NWKI-157c1f0e-0344-4310-9fca-ac778f7c3501.json
new file mode 100644
index 0000000..f875a77
--- /dev/null
+++ b/test/data/enm/study-NWKI-157c1f0e-0344-4310-9fca-ac778f7c3501.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-157c1f0e-0344-4310-9fca-ac778f7c3501",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2390517f-b763-3850-b1b4-6e50fee63829"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1599e8df-9aca-495a-b200-3a79e17f4725.json b/test/data/enm/study-NWKI-1599e8df-9aca-495a-b200-3a79e17f4725.json
new file mode 100644
index 0000000..16e16e2
--- /dev/null
+++ b/test/data/enm/study-NWKI-1599e8df-9aca-495a-b200-3a79e17f4725.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-1599e8df-9aca-495a-b200-3a79e17f4725",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b8a44a2-b835-3f75-903c-cf0a71a247c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 3,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1616676d-cef0-48d9-84b5-0a5fe92b2705.json b/test/data/enm/study-NWKI-1616676d-cef0-48d9-84b5-0a5fe92b2705.json
new file mode 100644
index 0000000..df34a81
--- /dev/null
+++ b/test/data/enm/study-NWKI-1616676d-cef0-48d9-84b5-0a5fe92b2705.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-1616676d-cef0-48d9-84b5-0a5fe92b2705",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DVT680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1663bbb9-45a2-4a1f-b694-e960165592ff.json b/test/data/enm/study-NWKI-1663bbb9-45a2-4a1f-b694-e960165592ff.json
new file mode 100644
index 0000000..8d1337a
--- /dev/null
+++ b/test/data/enm/study-NWKI-1663bbb9-45a2-4a1f-b694-e960165592ff.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-1663bbb9-45a2-4a1f-b694-e960165592ff",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7d4e9d59-fb38-37b9-99ec-b150ed7ce133"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": {
+          "loValue": 7
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 10,
+        "errorValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-92e20781-9c38-3c12-a311-14eab1e776fa.json b/test/data/enm/study-NWKI-1680e54d-dc50-46e5-beb2-725261d70e42.json
index 4688f9e..4688f9e 100644
--- a/test/data/enm/study-NWKI-92e20781-9c38-3c12-a311-14eab1e776fa.json
+++ b/test/data/enm/study-NWKI-1680e54d-dc50-46e5-beb2-725261d70e42.json
diff --git a/test/data/enm/study-NWKI-16943eea-e6e8-4f59-b660-6bf1f4876dbf.json b/test/data/enm/study-NWKI-16943eea-e6e8-4f59-b660-6bf1f4876dbf.json
new file mode 100644
index 0000000..636d0a7
--- /dev/null
+++ b/test/data/enm/study-NWKI-16943eea-e6e8-4f59-b660-6bf1f4876dbf.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-16943eea-e6e8-4f59-b660-6bf1f4876dbf",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cad5bf58-cc90-33e5-88bb-bad4c9f9fe9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-16a4b79d-ba53-4885-a2b8-f4204bf105d5.json b/test/data/enm/study-NWKI-16a4b79d-ba53-4885-a2b8-f4204bf105d5.json
new file mode 100644
index 0000000..3b89e72
--- /dev/null
+++ b/test/data/enm/study-NWKI-16a4b79d-ba53-4885-a2b8-f4204bf105d5.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-16a4b79d-ba53-4885-a2b8-f4204bf105d5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3ccb7313-0905-322a-ac62-09adb667bc0f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Diameter",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Diameter",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 10,
+        "upQualifier": "<=",
+        "upValue": 30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-95bb8173-3aad-3441-a50e-97e62401eadb.json b/test/data/enm/study-NWKI-16d02082-1ba3-4510-b59e-403abf8f1d23.json
index 69ccfdc..69ccfdc 100644
--- a/test/data/enm/study-NWKI-95bb8173-3aad-3441-a50e-97e62401eadb.json
+++ b/test/data/enm/study-NWKI-16d02082-1ba3-4510-b59e-403abf8f1d23.json
diff --git a/test/data/enm/study-NWKI-17092417-17a0-4373-84f2-da1d50f4d32c.json b/test/data/enm/study-NWKI-17092417-17a0-4373-84f2-da1d50f4d32c.json
new file mode 100644
index 0000000..8241ef5
--- /dev/null
+++ b/test/data/enm/study-NWKI-17092417-17a0-4373-84f2-da1d50f4d32c.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-17092417-17a0-4373-84f2-da1d50f4d32c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-11ae9232-1521-31d6-9466-c902c43d94fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DTatPeptide"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-173dce50-8e10-4eb6-8606-86a64f77aa63.json b/test/data/enm/study-NWKI-173dce50-8e10-4eb6-8606-86a64f77aa63.json
new file mode 100644
index 0000000..3a49580
--- /dev/null
+++ b/test/data/enm/study-NWKI-173dce50-8e10-4eb6-8606-86a64f77aa63.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-173dce50-8e10-4eb6-8606-86a64f77aa63",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-86b21444-5403-3e29-b117-e09ef92cca2a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Isoelectric Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ISOELECTRIC POINT",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 5.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-17738fdb-85b1-4bee-91c6-ce6784ade433.json b/test/data/enm/study-NWKI-17738fdb-85b1-4bee-91c6-ce6784ade433.json
new file mode 100644
index 0000000..01652bb
--- /dev/null
+++ b/test/data/enm/study-NWKI-17738fdb-85b1-4bee-91c6-ce6784ade433.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-17738fdb-85b1-4bee-91c6-ce6784ade433",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 101
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-17b02ae9-1dd2-4a6a-8162-4ed9e0e25770.json b/test/data/enm/study-NWKI-17b02ae9-1dd2-4a6a-8162-4ed9e0e25770.json
new file mode 100644
index 0000000..be5ca0c
--- /dev/null
+++ b/test/data/enm/study-NWKI-17b02ae9-1dd2-4a6a-8162-4ed9e0e25770.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-17b02ae9-1dd2-4a6a-8162-4ed9e0e25770",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 283,
+        "errorValue": 7.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-180c42f0-dd92-422b-a704-2cede4ecd197.json b/test/data/enm/study-NWKI-180c42f0-dd92-422b-a704-2cede4ecd197.json
new file mode 100644
index 0000000..daa50b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-180c42f0-dd92-422b-a704-2cede4ecd197.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-180c42f0-dd92-422b-a704-2cede4ecd197",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3424add5-867e-3dc5-864d-36c47589024b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": {
+          "loValue": 7
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 10,
+        "errorValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18542d3a-af3b-409e-867a-37ce489931fe.json b/test/data/enm/study-NWKI-18542d3a-af3b-409e-867a-37ce489931fe.json
new file mode 100644
index 0000000..1d6e7d3
--- /dev/null
+++ b/test/data/enm/study-NWKI-18542d3a-af3b-409e-867a-37ce489931fe.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-18542d3a-af3b-409e-867a-37ce489931fe",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18971884-ccca-4501-afc3-483cbc30d80e.json b/test/data/enm/study-NWKI-18971884-ccca-4501-afc3-483cbc30d80e.json
new file mode 100644
index 0000000..f3b8575
--- /dev/null
+++ b/test/data/enm/study-NWKI-18971884-ccca-4501-afc3-483cbc30d80e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-18971884-ccca-4501-afc3-483cbc30d80e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6d5462cc-7e11-3919-b769-135f56fd2536"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.soilbio.2013.01.016",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 50,
+        "upQualifier": "<=",
+        "upValue": 105
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18eacf9a-c155-4ed7-8c75-10cac75f1858.json b/test/data/enm/study-NWKI-18eacf9a-c155-4ed7-8c75-10cac75f1858.json
new file mode 100644
index 0000000..67794c8
--- /dev/null
+++ b/test/data/enm/study-NWKI-18eacf9a-c155-4ed7-8c75-10cac75f1858.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-18eacf9a-c155-4ed7-8c75-10cac75f1858",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad1d5068-29cd-3d8c-9ed0-44ed4ce06ddd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -21.9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18ecc7e2-69c6-456f-a6f9-35acc32c95d4.json b/test/data/enm/study-NWKI-18ecc7e2-69c6-456f-a6f9-35acc32c95d4.json
new file mode 100644
index 0000000..49ca642
--- /dev/null
+++ b/test/data/enm/study-NWKI-18ecc7e2-69c6-456f-a6f9-35acc32c95d4.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-18ecc7e2-69c6-456f-a6f9-35acc32c95d4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ef8660fd-e624-3a94-91bc-ad5a6e47bcf3"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -14.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18f29d40-3b2e-4bd9-8fe1-049810cbbbb4.json b/test/data/enm/study-NWKI-18f29d40-3b2e-4bd9-8fe1-049810cbbbb4.json
new file mode 100644
index 0000000..94374f0
--- /dev/null
+++ b/test/data/enm/study-NWKI-18f29d40-3b2e-4bd9-8fe1-049810cbbbb4.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-18f29d40-3b2e-4bd9-8fe1-049810cbbbb4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3bbccc84-019f-369f-ba70-490fcfde4423"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1a0ef2d1-139d-4c40-8b48-602061cc52b5.json b/test/data/enm/study-NWKI-1a0ef2d1-139d-4c40-8b48-602061cc52b5.json
new file mode 100644
index 0000000..f4e4477
--- /dev/null
+++ b/test/data/enm/study-NWKI-1a0ef2d1-139d-4c40-8b48-602061cc52b5.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1a0ef2d1-139d-4c40-8b48-602061cc52b5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-80f9ab46-f8fe-36de-9335-17c9d1dbdba5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390.2015.1017022",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Average Length",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Average Length",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "μm",
+        "loValue": 21,
+        "errorValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1aa514a8-41a9-4f83-b809-b27d84e9533f.json b/test/data/enm/study-NWKI-1aa514a8-41a9-4f83-b809-b27d84e9533f.json
new file mode 100644
index 0000000..c3680d9
--- /dev/null
+++ b/test/data/enm/study-NWKI-1aa514a8-41a9-4f83-b809-b27d84e9533f.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1aa514a8-41a9-4f83-b809-b27d84e9533f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ab2d4bdd-7a72-3e26-8552-5bb6027896bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 12,
+        "errorValue": 7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c075299c-c306-341a-8ccb-62c5bd123ab3.json b/test/data/enm/study-NWKI-1b01ed49-5212-4774-b777-9ff22f324e2f.json
index 35501c2..35501c2 100644
--- a/test/data/enm/study-NWKI-c075299c-c306-341a-8ccb-62c5bd123ab3.json
+++ b/test/data/enm/study-NWKI-1b01ed49-5212-4774-b777-9ff22f324e2f.json
diff --git a/test/data/enm/study-NWKI-1b674a0a-fa78-48e5-b76c-147e56f8d237.json b/test/data/enm/study-NWKI-1b674a0a-fa78-48e5-b76c-147e56f8d237.json
new file mode 100644
index 0000000..47dd05b
--- /dev/null
+++ b/test/data/enm/study-NWKI-1b674a0a-fa78-48e5-b76c-147e56f8d237.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-1b674a0a-fa78-48e5-b76c-147e56f8d237",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fe8fe744-ea1f-3841-9a6d-f81be44651a8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn200546k",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1c0923d6-4d39-4523-b2a4-409698803b71.json b/test/data/enm/study-NWKI-1c0923d6-4d39-4523-b2a4-409698803b71.json
new file mode 100644
index 0000000..7065e2c
--- /dev/null
+++ b/test/data/enm/study-NWKI-1c0923d6-4d39-4523-b2a4-409698803b71.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-1c0923d6-4d39-4523-b2a4-409698803b71",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "cMEM"
+        },
+        "pH": {
+          "loValue": 7.88
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1c1ebeed-25e4-4fa7-aee3-053f238fd1da.json b/test/data/enm/study-NWKI-1c1ebeed-25e4-4fa7-aee3-053f238fd1da.json
new file mode 100644
index 0000000..6854a70
--- /dev/null
+++ b/test/data/enm/study-NWKI-1c1ebeed-25e4-4fa7-aee3-053f238fd1da.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-1c1ebeed-25e4-4fa7-aee3-053f238fd1da",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ee237892-6184-3016-92af-b41dc14e9f9b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 5.9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1cca474e-5f3a-4a1c-adac-5e40e6554f00.json b/test/data/enm/study-NWKI-1cca474e-5f3a-4a1c-adac-5e40e6554f00.json
new file mode 100644
index 0000000..796bc89
--- /dev/null
+++ b/test/data/enm/study-NWKI-1cca474e-5f3a-4a1c-adac-5e40e6554f00.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-1cca474e-5f3a-4a1c-adac-5e40e6554f00",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1d0171f7-e65c-4da4-9b47-5218fb7f50ed.json b/test/data/enm/study-NWKI-1d0171f7-e65c-4da4-9b47-5218fb7f50ed.json
new file mode 100644
index 0000000..ce7da3f
--- /dev/null
+++ b/test/data/enm/study-NWKI-1d0171f7-e65c-4da4-9b47-5218fb7f50ed.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1d0171f7-e65c-4da4-9b47-5218fb7f50ed",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9142c528-4a84-3566-b678-dc1eef7d22fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Rutile"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Rutile"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1dbe71a3-fc3c-4dde-9e19-213824a4650e.json b/test/data/enm/study-NWKI-1dbe71a3-fc3c-4dde-9e19-213824a4650e.json
new file mode 100644
index 0000000..9ae41f7
--- /dev/null
+++ b/test/data/enm/study-NWKI-1dbe71a3-fc3c-4dde-9e19-213824a4650e.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-1dbe71a3-fc3c-4dde-9e19-213824a4650e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-34a6262c-7f25-3eea-9dd0-bf1e1df40ca9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SiO2"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "SiO2"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "APS_Coating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "APS"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "APS"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1ddab2f0-52a5-4c0a-835c-8644a8da7e30.json b/test/data/enm/study-NWKI-1ddab2f0-52a5-4c0a-835c-8644a8da7e30.json
new file mode 100644
index 0000000..0b97bc2
--- /dev/null
+++ b/test/data/enm/study-NWKI-1ddab2f0-52a5-4c0a-835c-8644a8da7e30.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-1ddab2f0-52a5-4c0a-835c-8644a8da7e30",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1df33a17-0117-4758-bb27-99b89f32effb.json b/test/data/enm/study-NWKI-1df33a17-0117-4758-bb27-99b89f32effb.json
new file mode 100644
index 0000000..1762dae
--- /dev/null
+++ b/test/data/enm/study-NWKI-1df33a17-0117-4758-bb27-99b89f32effb.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-1df33a17-0117-4758-bb27-99b89f32effb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1e3822cd-c251-4274-9ef5-193cb52cbf11.json b/test/data/enm/study-NWKI-1e3822cd-c251-4274-9ef5-193cb52cbf11.json
new file mode 100644
index 0000000..080476f
--- /dev/null
+++ b/test/data/enm/study-NWKI-1e3822cd-c251-4274-9ef5-193cb52cbf11.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1e3822cd-c251-4274-9ef5-193cb52cbf11",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-37e2b8ec-0e57-3ed8-9afc-93a3030ee25f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 9.48,
+        "errorValue": 1.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1d7c10cd-c2fe-3e95-94ec-2e4ee7099ec5.json b/test/data/enm/study-NWKI-1e3b4322-d062-4d9f-805c-55c6cbb1b3a5.json
index d576579..d576579 100644
--- a/test/data/enm/study-NWKI-1d7c10cd-c2fe-3e95-94ec-2e4ee7099ec5.json
+++ b/test/data/enm/study-NWKI-1e3b4322-d062-4d9f-805c-55c6cbb1b3a5.json
diff --git a/test/data/enm/study-NWKI-1e4e0b84-a846-4a46-b5ac-51b228cfed1c.json b/test/data/enm/study-NWKI-1e4e0b84-a846-4a46-b5ac-51b228cfed1c.json
new file mode 100644
index 0000000..f44534a
--- /dev/null
+++ b/test/data/enm/study-NWKI-1e4e0b84-a846-4a46-b5ac-51b228cfed1c.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-1e4e0b84-a846-4a46-b5ac-51b228cfed1c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-85b50517-fdea-3aa6-abbd-dd506393aaa5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 8,
+        "upQualifier": "<=",
+        "upValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1e7f5ba6-8146-40ef-a3f1-7d33628926a0.json b/test/data/enm/study-NWKI-1e7f5ba6-8146-40ef-a3f1-7d33628926a0.json
new file mode 100644
index 0000000..3a60c27
--- /dev/null
+++ b/test/data/enm/study-NWKI-1e7f5ba6-8146-40ef-a3f1-7d33628926a0.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-1e7f5ba6-8146-40ef-a3f1-7d33628926a0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-202b322d-51c9-3d73-a049-1e4019f8ddad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 4.98,
+        "errorValue": 0.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1eeb4b23-e2b0-4653-bc3a-0e9a5a4fba3b.json b/test/data/enm/study-NWKI-1eeb4b23-e2b0-4653-bc3a-0e9a5a4fba3b.json
new file mode 100644
index 0000000..b206bd2
--- /dev/null
+++ b/test/data/enm/study-NWKI-1eeb4b23-e2b0-4653-bc3a-0e9a5a4fba3b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-1eeb4b23-e2b0-4653-bc3a-0e9a5a4fba3b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9142c528-4a84-3566-b678-dc1eef7d22fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e624f68e-2e00-30e4-b4bb-9e34383580cb.json b/test/data/enm/study-NWKI-1eef5dd4-73da-41fc-a306-1c736fcb69bb.json
index ae4e746..ae4e746 100644
--- a/test/data/enm/study-NWKI-e624f68e-2e00-30e4-b4bb-9e34383580cb.json
+++ b/test/data/enm/study-NWKI-1eef5dd4-73da-41fc-a306-1c736fcb69bb.json
diff --git a/test/data/enm/study-NWKI-1f25b708-f769-4dcf-8e2f-85bfac650cdd.json b/test/data/enm/study-NWKI-1f25b708-f769-4dcf-8e2f-85bfac650cdd.json
new file mode 100644
index 0000000..b1a68df
--- /dev/null
+++ b/test/data/enm/study-NWKI-1f25b708-f769-4dcf-8e2f-85bfac650cdd.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-1f25b708-f769-4dcf-8e2f-85bfac650cdd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ee237892-6184-3016-92af-b41dc14e9f9b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-1f71d69f-b2dd-4f8a-a4f7-0c2c2085058b.json b/test/data/enm/study-NWKI-1f71d69f-b2dd-4f8a-a4f7-0c2c2085058b.json
new file mode 100644
index 0000000..6cbae52
--- /dev/null
+++ b/test/data/enm/study-NWKI-1f71d69f-b2dd-4f8a-a4f7-0c2c2085058b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-1f71d69f-b2dd-4f8a-a4f7-0c2c2085058b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-202033a2-bd5b-4059-9c82-d95501402b12.json b/test/data/enm/study-NWKI-202033a2-bd5b-4059-9c82-d95501402b12.json
new file mode 100644
index 0000000..3ef0b7d
--- /dev/null
+++ b/test/data/enm/study-NWKI-202033a2-bd5b-4059-9c82-d95501402b12.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-202033a2-bd5b-4059-9c82-d95501402b12",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bbce341e-3e4d-37f9-a891-5462ada32180"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -50
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e85f1dfb-0830-32a3-8394-c2cce810e3e2.json b/test/data/enm/study-NWKI-203bc896-c8b2-4425-ba37-6c4ab168f360.json
index 4942b29..4942b29 100644
--- a/test/data/enm/study-NWKI-e85f1dfb-0830-32a3-8394-c2cce810e3e2.json
+++ b/test/data/enm/study-NWKI-203bc896-c8b2-4425-ba37-6c4ab168f360.json
diff --git a/test/data/enm/study-NWKI-204f8f8a-215e-4589-abe7-4fe42b8e2dc2.json b/test/data/enm/study-NWKI-204f8f8a-215e-4589-abe7-4fe42b8e2dc2.json
new file mode 100644
index 0000000..6878f1c
--- /dev/null
+++ b/test/data/enm/study-NWKI-204f8f8a-215e-4589-abe7-4fe42b8e2dc2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-204f8f8a-215e-4589-abe7-4fe42b8e2dc2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e078849d-6137-33fc-b103-d458cb77184a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": {
+          "loValue": 7
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -22,
+        "errorValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-20706a1c-e61e-45e8-89f4-5253276b5155.json b/test/data/enm/study-NWKI-20706a1c-e61e-45e8-89f4-5253276b5155.json
new file mode 100644
index 0000000..d9b6431
--- /dev/null
+++ b/test/data/enm/study-NWKI-20706a1c-e61e-45e8-89f4-5253276b5155.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-20706a1c-e61e-45e8-89f4-5253276b5155",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ede00e9f-201f-33c9-9191-8dbf67fcf1b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -16.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2099233e-b04b-4f9e-89f7-e25339b6cc90.json b/test/data/enm/study-NWKI-2099233e-b04b-4f9e-89f7-e25339b6cc90.json
new file mode 100644
index 0000000..023a010
--- /dev/null
+++ b/test/data/enm/study-NWKI-2099233e-b04b-4f9e-89f7-e25339b6cc90.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-2099233e-b04b-4f9e-89f7-e25339b6cc90",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82c12809-d7af-3061-a531-1db744c521f0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-959963fd-df22-35fb-b821-dd3d74dd40ce.json b/test/data/enm/study-NWKI-210d0bde-ac61-4498-92e9-e801eaed0325.json
index 850b0af..850b0af 100644
--- a/test/data/enm/study-NWKI-959963fd-df22-35fb-b821-dd3d74dd40ce.json
+++ b/test/data/enm/study-NWKI-210d0bde-ac61-4498-92e9-e801eaed0325.json
diff --git a/test/data/enm/study-NWKI-2141b230-1f6c-4cef-a0c0-beeb5ace4344.json b/test/data/enm/study-NWKI-2141b230-1f6c-4cef-a0c0-beeb5ace4344.json
new file mode 100644
index 0000000..7c148a6
--- /dev/null
+++ b/test/data/enm/study-NWKI-2141b230-1f6c-4cef-a0c0-beeb5ace4344.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-2141b230-1f6c-4cef-a0c0-beeb5ace4344",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-13b28611-c05b-325b-9e60-182c49b2a288"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 3,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 22
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2195cc6b-370b-478d-873c-de64afca349f.json b/test/data/enm/study-NWKI-2195cc6b-370b-478d-873c-de64afca349f.json
new file mode 100644
index 0000000..93a87a2
--- /dev/null
+++ b/test/data/enm/study-NWKI-2195cc6b-370b-478d-873c-de64afca349f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-2195cc6b-370b-478d-873c-de64afca349f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-df2f5618-fab4-3f50-a191-1eabaa999ff9.json b/test/data/enm/study-NWKI-21c99803-9aea-440c-a82b-070a62e52524.json
index 475ef65..475ef65 100644
--- a/test/data/enm/study-NWKI-df2f5618-fab4-3f50-a191-1eabaa999ff9.json
+++ b/test/data/enm/study-NWKI-21c99803-9aea-440c-a82b-070a62e52524.json
diff --git a/test/data/enm/study-NWKI-22544826-1d70-4400-b767-f3b610284346.json b/test/data/enm/study-NWKI-22544826-1d70-4400-b767-f3b610284346.json
new file mode 100644
index 0000000..0eb1ce3
--- /dev/null
+++ b/test/data/enm/study-NWKI-22544826-1d70-4400-b767-f3b610284346.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-22544826-1d70-4400-b767-f3b610284346",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7efe542f-264c-3b57-a516-410b730df963"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-22642000-70c2-48a8-af04-e4b79a86d8e2.json b/test/data/enm/study-NWKI-22642000-70c2-48a8-af04-e4b79a86d8e2.json
new file mode 100644
index 0000000..9adc489
--- /dev/null
+++ b/test/data/enm/study-NWKI-22642000-70c2-48a8-af04-e4b79a86d8e2.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-22642000-70c2-48a8-af04-e4b79a86d8e2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4e021275-ae4e-3d24-bdb8-40c6d8d9d6fc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-226a98c7-2e60-4b2c-b3be-21fe83779526.json b/test/data/enm/study-NWKI-226a98c7-2e60-4b2c-b3be-21fe83779526.json
new file mode 100644
index 0000000..62aa920
--- /dev/null
+++ b/test/data/enm/study-NWKI-226a98c7-2e60-4b2c-b3be-21fe83779526.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-226a98c7-2e60-4b2c-b3be-21fe83779526",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-229f45c0-1354-4f72-a431-1c07d4f80d0b.json b/test/data/enm/study-NWKI-229f45c0-1354-4f72-a431-1c07d4f80d0b.json
new file mode 100644
index 0000000..be771d6
--- /dev/null
+++ b/test/data/enm/study-NWKI-229f45c0-1354-4f72-a431-1c07d4f80d0b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-229f45c0-1354-4f72-a431-1c07d4f80d0b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6821e372-3b17-3a56-8fac-f66115f24e5d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 230
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-230e862e-2402-46e1-9e0a-5ecc057d6695.json b/test/data/enm/study-NWKI-230e862e-2402-46e1-9e0a-5ecc057d6695.json
new file mode 100644
index 0000000..bc07308
--- /dev/null
+++ b/test/data/enm/study-NWKI-230e862e-2402-46e1-9e0a-5ecc057d6695.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-230e862e-2402-46e1-9e0a-5ecc057d6695",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-905e44ef-3f7f-314d-add0-3e00439eaded"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2316021e-2bd1-407f-8db1-10d82a97ce85.json b/test/data/enm/study-NWKI-2316021e-2bd1-407f-8db1-10d82a97ce85.json
new file mode 100644
index 0000000..6ae5d16
--- /dev/null
+++ b/test/data/enm/study-NWKI-2316021e-2bd1-407f-8db1-10d82a97ce85.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-2316021e-2bd1-407f-8db1-10d82a97ce85",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0866f605-4cfb-32a2-a704-2cf2a8d3d9a6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-238893d9-0a10-4916-864a-3e29675d036d.json b/test/data/enm/study-NWKI-238893d9-0a10-4916-864a-3e29675d036d.json
new file mode 100644
index 0000000..82c43d7
--- /dev/null
+++ b/test/data/enm/study-NWKI-238893d9-0a10-4916-864a-3e29675d036d.json
@@ -0,0 +1,52 @@
+{
+  "uuid": "NWKI-238893d9-0a10-4916-864a-3e29675d036d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "UNKNOWN_TOXICITY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "7.99 Toxicity (other)"
+    },
+    "endpoint": "Concentration in culture medium",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_culture_medium",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/g",
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-23e79594-2966-47eb-90a7-adebb71c5a1a.json b/test/data/enm/study-NWKI-23e79594-2966-47eb-90a7-adebb71c5a1a.json
new file mode 100644
index 0000000..0a02ff0
--- /dev/null
+++ b/test/data/enm/study-NWKI-23e79594-2966-47eb-90a7-adebb71c5a1a.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-23e79594-2966-47eb-90a7-adebb71c5a1a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fc00f3ef-464d-32d3-9d12-7e78d25db6ce"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -43.4,
+        "errorValue": 0.89
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c2075a8a-c7f2-31df-9d04-1cb096cdfece.json b/test/data/enm/study-NWKI-2434304e-6236-4c16-8c91-e2269ef64a82.json
index b34d87e..b34d87e 100644
--- a/test/data/enm/study-NWKI-c2075a8a-c7f2-31df-9d04-1cb096cdfece.json
+++ b/test/data/enm/study-NWKI-2434304e-6236-4c16-8c91-e2269ef64a82.json
diff --git a/test/data/enm/study-NWKI-24870f17-e19e-4d4e-a75e-fc1da15715f9.json b/test/data/enm/study-NWKI-24870f17-e19e-4d4e-a75e-fc1da15715f9.json
new file mode 100644
index 0000000..319aab2
--- /dev/null
+++ b/test/data/enm/study-NWKI-24870f17-e19e-4d4e-a75e-fc1da15715f9.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-24870f17-e19e-4d4e-a75e-fc1da15715f9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -4.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-24c0ce94-b9bb-4abf-9415-b52defdac67f.json b/test/data/enm/study-NWKI-24c0ce94-b9bb-4abf-9415-b52defdac67f.json
new file mode 100644
index 0000000..5c6b440
--- /dev/null
+++ b/test/data/enm/study-NWKI-24c0ce94-b9bb-4abf-9415-b52defdac67f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-24c0ce94-b9bb-4abf-9415-b52defdac67f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-536c91ba-6cf8-3808-b611-f7d5830f5ed8.json b/test/data/enm/study-NWKI-2575d442-a40e-444e-8653-bcb555e99baa.json
index ae799cc..ae799cc 100644
--- a/test/data/enm/study-NWKI-536c91ba-6cf8-3808-b611-f7d5830f5ed8.json
+++ b/test/data/enm/study-NWKI-2575d442-a40e-444e-8653-bcb555e99baa.json
diff --git a/test/data/enm/study-NWKI-25d1bdc0-b1e2-4d96-bfdc-f26099585f76.json b/test/data/enm/study-NWKI-25d1bdc0-b1e2-4d96-bfdc-f26099585f76.json
new file mode 100644
index 0000000..1ccffbd
--- /dev/null
+++ b/test/data/enm/study-NWKI-25d1bdc0-b1e2-4d96-bfdc-f26099585f76.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-25d1bdc0-b1e2-4d96-bfdc-f26099585f76",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-88767671-5631-3c93-8cfc-db0f48978e77"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7b6aae8a-bc39-3794-8140-8d409630c8bc.json b/test/data/enm/study-NWKI-26592811-15c2-4a2e-b684-e0849e59ad2d.json
index 9c57c33..9c57c33 100644
--- a/test/data/enm/study-NWKI-7b6aae8a-bc39-3794-8140-8d409630c8bc.json
+++ b/test/data/enm/study-NWKI-26592811-15c2-4a2e-b684-e0849e59ad2d.json
diff --git a/test/data/enm/study-NWKI-26a723a1-8c78-49d7-a277-7008df754248.json b/test/data/enm/study-NWKI-26a723a1-8c78-49d7-a277-7008df754248.json
new file mode 100644
index 0000000..335beed
--- /dev/null
+++ b/test/data/enm/study-NWKI-26a723a1-8c78-49d7-a277-7008df754248.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-26a723a1-8c78-49d7-a277-7008df754248",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 250,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-26b625c2-f38a-4a2f-b950-0e2c9f7191f7.json b/test/data/enm/study-NWKI-26b625c2-f38a-4a2f-b950-0e2c9f7191f7.json
new file mode 100644
index 0000000..3c91e19
--- /dev/null
+++ b/test/data/enm/study-NWKI-26b625c2-f38a-4a2f-b950-0e2c9f7191f7.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-26b625c2-f38a-4a2f-b950-0e2c9f7191f7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-26e60e64-968f-4935-af8e-22052f7f09ba.json b/test/data/enm/study-NWKI-26e60e64-968f-4935-af8e-22052f7f09ba.json
new file mode 100644
index 0000000..258a435
--- /dev/null
+++ b/test/data/enm/study-NWKI-26e60e64-968f-4935-af8e-22052f7f09ba.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-26e60e64-968f-4935-af8e-22052f7f09ba",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b8a44a2-b835-3f75-903c-cf0a71a247c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 1,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3ccff23c-b3d6-3614-aef4-4324be42804b.json b/test/data/enm/study-NWKI-26e89dc8-26c3-48a9-ad65-a91dec14ef56.json
index 63c4995..63c4995 100644
--- a/test/data/enm/study-NWKI-3ccff23c-b3d6-3614-aef4-4324be42804b.json
+++ b/test/data/enm/study-NWKI-26e89dc8-26c3-48a9-ad65-a91dec14ef56.json
diff --git a/test/data/enm/study-NWKI-2732ed2c-53c1-4fff-a4f0-b8772e472fcd.json b/test/data/enm/study-NWKI-2732ed2c-53c1-4fff-a4f0-b8772e472fcd.json
new file mode 100644
index 0000000..9f1fdab
--- /dev/null
+++ b/test/data/enm/study-NWKI-2732ed2c-53c1-4fff-a4f0-b8772e472fcd.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-2732ed2c-53c1-4fff-a4f0-b8772e472fcd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0455b6e1-5203-37bb-a98b-20460acceda1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-28032d42-937c-499a-bbe2-f4a1da0e89c2.json b/test/data/enm/study-NWKI-28032d42-937c-499a-bbe2-f4a1da0e89c2.json
new file mode 100644
index 0000000..d2de121
--- /dev/null
+++ b/test/data/enm/study-NWKI-28032d42-937c-499a-bbe2-f4a1da0e89c2.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-28032d42-937c-499a-bbe2-f4a1da0e89c2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-283a4d9f-1ddf-4550-9478-f419b7ff078a.json b/test/data/enm/study-NWKI-283a4d9f-1ddf-4550-9478-f419b7ff078a.json
new file mode 100644
index 0000000..1223b70
--- /dev/null
+++ b/test/data/enm/study-NWKI-283a4d9f-1ddf-4550-9478-f419b7ff078a.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-283a4d9f-1ddf-4550-9478-f419b7ff078a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3a3b2bcd-8284-37dc-a619-56ffbd7ebd68"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn2021056",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.4,
+        "errorValue": 4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2857ed00-21b0-4191-9628-dc163ac5ad49.json b/test/data/enm/study-NWKI-2857ed00-21b0-4191-9628-dc163ac5ad49.json
new file mode 100644
index 0000000..c7e5728
--- /dev/null
+++ b/test/data/enm/study-NWKI-2857ed00-21b0-4191-9628-dc163ac5ad49.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-2857ed00-21b0-4191-9628-dc163ac5ad49",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c2ab6def-8305-3b78-958a-4657b3363e11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Isoelectric Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ISOELECTRIC POINT",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 5.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2874555f-a89b-4a19-a9b0-c8f5012f0d8b.json b/test/data/enm/study-NWKI-2874555f-a89b-4a19-a9b0-c8f5012f0d8b.json
new file mode 100644
index 0000000..905dfd4
--- /dev/null
+++ b/test/data/enm/study-NWKI-2874555f-a89b-4a19-a9b0-c8f5012f0d8b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-2874555f-a89b-4a19-a9b0-c8f5012f0d8b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4f91db77-4cd0-3482-b989-571d2a9a4228"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn200546k",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 0.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-288222ad-ae6a-4ae7-ab7e-70ffd4433def.json b/test/data/enm/study-NWKI-288222ad-ae6a-4ae7-ab7e-70ffd4433def.json
new file mode 100644
index 0000000..90127e9
--- /dev/null
+++ b/test/data/enm/study-NWKI-288222ad-ae6a-4ae7-ab7e-70ffd4433def.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-288222ad-ae6a-4ae7-ab7e-70ffd4433def",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad44f58f-8080-3017-9f8d-485fad044849"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DRhodamine-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Protamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Protamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-28a5b8c8-db90-40ff-89c5-cc9d3cbd176c.json b/test/data/enm/study-NWKI-28a5b8c8-db90-40ff-89c5-cc9d3cbd176c.json
new file mode 100644
index 0000000..f70dce3
--- /dev/null
+++ b/test/data/enm/study-NWKI-28a5b8c8-db90-40ff-89c5-cc9d3cbd176c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-28a5b8c8-db90-40ff-89c5-cc9d3cbd176c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-28d2fca5-1d49-4401-aa15-afbcddb14154.json b/test/data/enm/study-NWKI-28d2fca5-1d49-4401-aa15-afbcddb14154.json
new file mode 100644
index 0000000..100866e
--- /dev/null
+++ b/test/data/enm/study-NWKI-28d2fca5-1d49-4401-aa15-afbcddb14154.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-28d2fca5-1d49-4401-aa15-afbcddb14154",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5a049bb7-380d-3c89-9c39-f1310ed7b09d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 92,
+        "errorValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-28f4d696-5c08-414c-933a-4ab55dff076f.json b/test/data/enm/study-NWKI-28f4d696-5c08-414c-933a-4ab55dff076f.json
new file mode 100644
index 0000000..42d7c96
--- /dev/null
+++ b/test/data/enm/study-NWKI-28f4d696-5c08-414c-933a-4ab55dff076f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-28f4d696-5c08-414c-933a-4ab55dff076f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-29902ba0-0a8c-4a93-bd2f-1301b08b1278.json b/test/data/enm/study-NWKI-29902ba0-0a8c-4a93-bd2f-1301b08b1278.json
new file mode 100644
index 0000000..98f0a7b
--- /dev/null
+++ b/test/data/enm/study-NWKI-29902ba0-0a8c-4a93-bd2f-1301b08b1278.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-29902ba0-0a8c-4a93-bd2f-1301b08b1278",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-83a75181-9103-3ef9-aec7-fa38074580f6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 3.37,
+        "errorValue": 0.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-299853db-1973-4a85-9ae2-f85e7cd5c8f1.json b/test/data/enm/study-NWKI-299853db-1973-4a85-9ae2-f85e7cd5c8f1.json
new file mode 100644
index 0000000..1b80639
--- /dev/null
+++ b/test/data/enm/study-NWKI-299853db-1973-4a85-9ae2-f85e7cd5c8f1.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-299853db-1973-4a85-9ae2-f85e7cd5c8f1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ede00e9f-201f-33c9-9191-8dbf67fcf1b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "CdSe"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "CdSe"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH-2DAmphPolymer"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amphiphillic_Polymer"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amphiphillic_Polymer"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-299b892c-97fc-43f6-985c-768a7c84f287.json b/test/data/enm/study-NWKI-299b892c-97fc-43f6-985c-768a7c84f287.json
new file mode 100644
index 0000000..0033a71
--- /dev/null
+++ b/test/data/enm/study-NWKI-299b892c-97fc-43f6-985c-768a7c84f287.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-299b892c-97fc-43f6-985c-768a7c84f287",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5454d5cb-1033-3d6f-a31e-038752525533"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 108
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-299d8d27-4b6a-4b9c-a500-28ede35d570e.json b/test/data/enm/study-NWKI-299d8d27-4b6a-4b9c-a500-28ede35d570e.json
new file mode 100644
index 0000000..c720263
--- /dev/null
+++ b/test/data/enm/study-NWKI-299d8d27-4b6a-4b9c-a500-28ede35d570e.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-299d8d27-4b6a-4b9c-a500-28ede35d570e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 97
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-299db44e-27a2-4aba-9c25-a1ae9a9e2959.json b/test/data/enm/study-NWKI-299db44e-27a2-4aba-9c25-a1ae9a9e2959.json
new file mode 100644
index 0000000..17ce5ef
--- /dev/null
+++ b/test/data/enm/study-NWKI-299db44e-27a2-4aba-9c25-a1ae9a9e2959.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-299db44e-27a2-4aba-9c25-a1ae9a9e2959",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 2000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-29bb615b-97c3-48e8-b04c-9b3c0e6d3dc2.json b/test/data/enm/study-NWKI-29bb615b-97c3-48e8-b04c-9b3c0e6d3dc2.json
new file mode 100644
index 0000000..a3c44b3
--- /dev/null
+++ b/test/data/enm/study-NWKI-29bb615b-97c3-48e8-b04c-9b3c0e6d3dc2.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-29bb615b-97c3-48e8-b04c-9b3c0e6d3dc2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-29e445cd-20bf-491f-9be4-03a72f03db02.json b/test/data/enm/study-NWKI-29e445cd-20bf-491f-9be4-03a72f03db02.json
new file mode 100644
index 0000000..e0754a6
--- /dev/null
+++ b/test/data/enm/study-NWKI-29e445cd-20bf-491f-9be4-03a72f03db02.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-29e445cd-20bf-491f-9be4-03a72f03db02",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4832de65-5a92-3849-8061-729a2d83017e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 320
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2a0a9364-2a37-40e6-9608-9a035483cef9.json b/test/data/enm/study-NWKI-2a0a9364-2a37-40e6-9608-9a035483cef9.json
new file mode 100644
index 0000000..9241b9d
--- /dev/null
+++ b/test/data/enm/study-NWKI-2a0a9364-2a37-40e6-9608-9a035483cef9.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-2a0a9364-2a37-40e6-9608-9a035483cef9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-905e44ef-3f7f-314d-add0-3e00439eaded"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3068a619-f77c-3f33-848a-7b4248f6c52c.json b/test/data/enm/study-NWKI-2a6c5f39-8eec-4b37-ae56-7f0b1f2fa52f.json
index 41eb95e..41eb95e 100644
--- a/test/data/enm/study-NWKI-3068a619-f77c-3f33-848a-7b4248f6c52c.json
+++ b/test/data/enm/study-NWKI-2a6c5f39-8eec-4b37-ae56-7f0b1f2fa52f.json
diff --git a/test/data/enm/study-NWKI-2a93ff70-da43-42ff-8333-ae1552a0e9fa.json b/test/data/enm/study-NWKI-2a93ff70-da43-42ff-8333-ae1552a0e9fa.json
new file mode 100644
index 0000000..3618730
--- /dev/null
+++ b/test/data/enm/study-NWKI-2a93ff70-da43-42ff-8333-ae1552a0e9fa.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-2a93ff70-da43-42ff-8333-ae1552a0e9fa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2ac5ee28-7aa5-44eb-be7a-8cb8b102c3b5.json b/test/data/enm/study-NWKI-2ac5ee28-7aa5-44eb-be7a-8cb8b102c3b5.json
new file mode 100644
index 0000000..c5c2b26
--- /dev/null
+++ b/test/data/enm/study-NWKI-2ac5ee28-7aa5-44eb-be7a-8cb8b102c3b5.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-2ac5ee28-7aa5-44eb-be7a-8cb8b102c3b5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-57a03b07-0bb6-306c-ba30-71d5bc626385"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.soilbio.2013.01.016",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2b0e084f-2f89-41f0-a01c-72d89c23f175.json b/test/data/enm/study-NWKI-2b0e084f-2f89-41f0-a01c-72d89c23f175.json
new file mode 100644
index 0000000..9a24d6b
--- /dev/null
+++ b/test/data/enm/study-NWKI-2b0e084f-2f89-41f0-a01c-72d89c23f175.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-2b0e084f-2f89-41f0-a01c-72d89c23f175",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6cab56b4-69d9-36e0-8c17-f467d08b2555"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH-2DPVA"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "O=CO[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "COOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2bacd054-36df-4ea5-810c-0de08179cbf3.json b/test/data/enm/study-NWKI-2bacd054-36df-4ea5-810c-0de08179cbf3.json
new file mode 100644
index 0000000..c5653b6
--- /dev/null
+++ b/test/data/enm/study-NWKI-2bacd054-36df-4ea5-810c-0de08179cbf3.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-2bacd054-36df-4ea5-810c-0de08179cbf3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3481f716-18fa-39b3-aa54-4acb67877194"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DGlycine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b4bd899e-c57e-3aaa-bf6f-54ec8ebd6ab5.json b/test/data/enm/study-NWKI-2bf27a2e-1693-4d61-9d4f-85904590957c.json
index 28183ba..28183ba 100644
--- a/test/data/enm/study-NWKI-b4bd899e-c57e-3aaa-bf6f-54ec8ebd6ab5.json
+++ b/test/data/enm/study-NWKI-2bf27a2e-1693-4d61-9d4f-85904590957c.json
diff --git a/test/data/enm/study-NWKI-2c19a322-a657-435a-9de7-b768efa0de5d.json b/test/data/enm/study-NWKI-2c19a322-a657-435a-9de7-b768efa0de5d.json
new file mode 100644
index 0000000..773df98
--- /dev/null
+++ b/test/data/enm/study-NWKI-2c19a322-a657-435a-9de7-b768efa0de5d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-2c19a322-a657-435a-9de7-b768efa0de5d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-13b28611-c05b-325b-9e60-182c49b2a288"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 80,
+        "upQualifier": "<=",
+        "upValue": 150
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2c886612-ba50-4458-b3dc-b0e9da77ee63.json b/test/data/enm/study-NWKI-2c886612-ba50-4458-b3dc-b0e9da77ee63.json
new file mode 100644
index 0000000..995afa7
--- /dev/null
+++ b/test/data/enm/study-NWKI-2c886612-ba50-4458-b3dc-b0e9da77ee63.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-2c886612-ba50-4458-b3dc-b0e9da77ee63",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DGlutamicAcid"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2caa1583-ad03-4f9c-adb2-d8fb7dd299f3.json b/test/data/enm/study-NWKI-2caa1583-ad03-4f9c-adb2-d8fb7dd299f3.json
new file mode 100644
index 0000000..8a93f57
--- /dev/null
+++ b/test/data/enm/study-NWKI-2caa1583-ad03-4f9c-adb2-d8fb7dd299f3.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-2caa1583-ad03-4f9c-adb2-d8fb7dd299f3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3fb9be70-8c15-3b78-94e7-5c3c88799818"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -4.22
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2da0ea19-ca30-4b3f-b1f0-19a5790c1621.json b/test/data/enm/study-NWKI-2da0ea19-ca30-4b3f-b1f0-19a5790c1621.json
new file mode 100644
index 0000000..0ff02d0
--- /dev/null
+++ b/test/data/enm/study-NWKI-2da0ea19-ca30-4b3f-b1f0-19a5790c1621.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-2da0ea19-ca30-4b3f-b1f0-19a5790c1621",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 8
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2dbb5798-e811-4968-9496-da98b03ad991.json b/test/data/enm/study-NWKI-2dbb5798-e811-4968-9496-da98b03ad991.json
new file mode 100644
index 0000000..ea8d739
--- /dev/null
+++ b/test/data/enm/study-NWKI-2dbb5798-e811-4968-9496-da98b03ad991.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-2dbb5798-e811-4968-9496-da98b03ad991",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2def1a31-61ca-499f-bdf0-374670910a81.json b/test/data/enm/study-NWKI-2def1a31-61ca-499f-bdf0-374670910a81.json
new file mode 100644
index 0000000..6476a17
--- /dev/null
+++ b/test/data/enm/study-NWKI-2def1a31-61ca-499f-bdf0-374670910a81.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-2def1a31-61ca-499f-bdf0-374670910a81",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a33b26f0-2fc7-3aa1-9dd6-27380f725bfe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2dfbca11-00fc-49c9-876b-6be628025350.json b/test/data/enm/study-NWKI-2dfbca11-00fc-49c9-876b-6be628025350.json
new file mode 100644
index 0000000..e94698e
--- /dev/null
+++ b/test/data/enm/study-NWKI-2dfbca11-00fc-49c9-876b-6be628025350.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-2dfbca11-00fc-49c9-876b-6be628025350",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-155bb96c-2d7e-384d-b55d-45856eeda386"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2e105bec-9f2f-456d-85ad-0f01e08dacb6.json b/test/data/enm/study-NWKI-2e105bec-9f2f-456d-85ad-0f01e08dacb6.json
new file mode 100644
index 0000000..d11f11c
--- /dev/null
+++ b/test/data/enm/study-NWKI-2e105bec-9f2f-456d-85ad-0f01e08dacb6.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-2e105bec-9f2f-456d-85ad-0f01e08dacb6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 10,
+          "unit": "m"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2e9983eb-ea2c-4fbf-a1a3-4fedbc871d87.json b/test/data/enm/study-NWKI-2e9983eb-ea2c-4fbf-a1a3-4fedbc871d87.json
new file mode 100644
index 0000000..2d7b0f2
--- /dev/null
+++ b/test/data/enm/study-NWKI-2e9983eb-ea2c-4fbf-a1a3-4fedbc871d87.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-2e9983eb-ea2c-4fbf-a1a3-4fedbc871d87",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0494174f-9fc2-3296-8ffb-4fadaceb0348"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 617,
+        "errorValue": 27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2f1f62b2-8f0f-422f-a2ae-1ad5229a1fe1.json b/test/data/enm/study-NWKI-2f1f62b2-8f0f-422f-a2ae-1ad5229a1fe1.json
new file mode 100644
index 0000000..f2931cb
--- /dev/null
+++ b/test/data/enm/study-NWKI-2f1f62b2-8f0f-422f-a2ae-1ad5229a1fe1.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-2f1f62b2-8f0f-422f-a2ae-1ad5229a1fe1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2390517f-b763-3850-b1b4-6e50fee63829"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2f252609-ec14-4014-b4ff-5f062deb4fdd.json b/test/data/enm/study-NWKI-2f252609-ec14-4014-b4ff-5f062deb4fdd.json
new file mode 100644
index 0000000..daf43c4
--- /dev/null
+++ b/test/data/enm/study-NWKI-2f252609-ec14-4014-b4ff-5f062deb4fdd.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-2f252609-ec14-4014-b4ff-5f062deb4fdd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2f590895-a505-4ac2-890c-491a0a2f4eeb.json b/test/data/enm/study-NWKI-2f590895-a505-4ac2-890c-491a0a2f4eeb.json
new file mode 100644
index 0000000..97151d5
--- /dev/null
+++ b/test/data/enm/study-NWKI-2f590895-a505-4ac2-890c-491a0a2f4eeb.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-2f590895-a505-4ac2-890c-491a0a2f4eeb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-458c2d5a-53f0-3c65-81eb-6fb5d128db59"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 378,
+        "errorValue": 70
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2f67c03b-e137-475e-b8e1-f7147b2f0734.json b/test/data/enm/study-NWKI-2f67c03b-e137-475e-b8e1-f7147b2f0734.json
new file mode 100644
index 0000000..d5e8143
--- /dev/null
+++ b/test/data/enm/study-NWKI-2f67c03b-e137-475e-b8e1-f7147b2f0734.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-2f67c03b-e137-475e-b8e1-f7147b2f0734",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c012600e-ca8e-31db-a7a8-d9f6a74e2464"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-304bf941-2d4e-4069-bc64-c2ca8b68338a.json b/test/data/enm/study-NWKI-304bf941-2d4e-4069-bc64-c2ca8b68338a.json
new file mode 100644
index 0000000..0ee034b
--- /dev/null
+++ b/test/data/enm/study-NWKI-304bf941-2d4e-4069-bc64-c2ca8b68338a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-304bf941-2d4e-4069-bc64-c2ca8b68338a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-11ae9232-1521-31d6-9466-c902c43d94fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-308b284b-e2ae-4f73-a350-d0deb35cb0b2.json b/test/data/enm/study-NWKI-308b284b-e2ae-4f73-a350-d0deb35cb0b2.json
new file mode 100644
index 0000000..63d0d97
--- /dev/null
+++ b/test/data/enm/study-NWKI-308b284b-e2ae-4f73-a350-d0deb35cb0b2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-308b284b-e2ae-4f73-a350-d0deb35cb0b2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8196e92b-c46d-3c14-9410-e87992810710"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 60
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-30a5f8ec-7758-4f6e-bf77-fc75108fd1fb.json b/test/data/enm/study-NWKI-30a5f8ec-7758-4f6e-bf77-fc75108fd1fb.json
new file mode 100644
index 0000000..c73f6dc
--- /dev/null
+++ b/test/data/enm/study-NWKI-30a5f8ec-7758-4f6e-bf77-fc75108fd1fb.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-30a5f8ec-7758-4f6e-bf77-fc75108fd1fb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad44f58f-8080-3017-9f8d-485fad044849"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-30d9478c-941f-4174-bdf0-48841c418f1a.json b/test/data/enm/study-NWKI-30d9478c-941f-4174-bdf0-48841c418f1a.json
new file mode 100644
index 0000000..7cb14bc
--- /dev/null
+++ b/test/data/enm/study-NWKI-30d9478c-941f-4174-bdf0-48841c418f1a.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-30d9478c-941f-4174-bdf0-48841c418f1a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-315aa68b-5450-4657-8545-0a894a6c662e.json b/test/data/enm/study-NWKI-315aa68b-5450-4657-8545-0a894a6c662e.json
new file mode 100644
index 0000000..db1f49b
--- /dev/null
+++ b/test/data/enm/study-NWKI-315aa68b-5450-4657-8545-0a894a6c662e.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-315aa68b-5450-4657-8545-0a894a6c662e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-984a9c7f-2372-3b8f-9ff5-93a9f94f2eb7"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 855,
+        "errorValue": 37
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-316b62f2-31bc-4b10-a967-48c9be7cd6be.json b/test/data/enm/study-NWKI-316b62f2-31bc-4b10-a967-48c9be7cd6be.json
new file mode 100644
index 0000000..30cb573
--- /dev/null
+++ b/test/data/enm/study-NWKI-316b62f2-31bc-4b10-a967-48c9be7cd6be.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-316b62f2-31bc-4b10-a967-48c9be7cd6be",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-31812e13-570d-4bf0-8c6d-5635218c8fb5.json b/test/data/enm/study-NWKI-31812e13-570d-4bf0-8c6d-5635218c8fb5.json
new file mode 100644
index 0000000..d616a39
--- /dev/null
+++ b/test/data/enm/study-NWKI-31812e13-570d-4bf0-8c6d-5635218c8fb5.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-31812e13-570d-4bf0-8c6d-5635218c8fb5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9fb12a3a-3a26-3f95-82ed-371f58d92dfe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 205,
+        "errorValue": 20.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-318a63ca-3312-41f8-8896-0f20a7cc8b10.json b/test/data/enm/study-NWKI-318a63ca-3312-41f8-8896-0f20a7cc8b10.json
new file mode 100644
index 0000000..05b8f43
--- /dev/null
+++ b/test/data/enm/study-NWKI-318a63ca-3312-41f8-8896-0f20a7cc8b10.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-318a63ca-3312-41f8-8896-0f20a7cc8b10",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cad5bf58-cc90-33e5-88bb-bad4c9f9fe9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY5"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-99fe068d-e343-35f8-9cc9-06c3a3cf8e22.json b/test/data/enm/study-NWKI-3225cb74-4a8d-4395-b54e-4e82b7314e3a.json
index 373adeb..373adeb 100644
--- a/test/data/enm/study-NWKI-99fe068d-e343-35f8-9cc9-06c3a3cf8e22.json
+++ b/test/data/enm/study-NWKI-3225cb74-4a8d-4395-b54e-4e82b7314e3a.json
diff --git a/test/data/enm/study-NWKI-327518e0-53d1-4c5c-9c94-a80e3d43f535.json b/test/data/enm/study-NWKI-327518e0-53d1-4c5c-9c94-a80e3d43f535.json
new file mode 100644
index 0000000..13896a0
--- /dev/null
+++ b/test/data/enm/study-NWKI-327518e0-53d1-4c5c-9c94-a80e3d43f535.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-327518e0-53d1-4c5c-9c94-a80e3d43f535",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ea2bb63b-fd2a-32c2-a41a-d0280abaf29f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-32b90f7e-f71d-4748-8903-1afe74263c9b.json b/test/data/enm/study-NWKI-32b90f7e-f71d-4748-8903-1afe74263c9b.json
new file mode 100644
index 0000000..7566b1b
--- /dev/null
+++ b/test/data/enm/study-NWKI-32b90f7e-f71d-4748-8903-1afe74263c9b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-32b90f7e-f71d-4748-8903-1afe74263c9b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-32ed71dd-3d4e-4bbb-9ca1-dcf617d6a280.json b/test/data/enm/study-NWKI-32ed71dd-3d4e-4bbb-9ca1-dcf617d6a280.json
new file mode 100644
index 0000000..b501dc2
--- /dev/null
+++ b/test/data/enm/study-NWKI-32ed71dd-3d4e-4bbb-9ca1-dcf617d6a280.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-32ed71dd-3d4e-4bbb-9ca1-dcf617d6a280",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-35426c83-c6fb-4f54-b3a5-380884d1bafa.json b/test/data/enm/study-NWKI-35426c83-c6fb-4f54-b3a5-380884d1bafa.json
new file mode 100644
index 0000000..7faf65a
--- /dev/null
+++ b/test/data/enm/study-NWKI-35426c83-c6fb-4f54-b3a5-380884d1bafa.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-35426c83-c6fb-4f54-b3a5-380884d1bafa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1.6,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e24378b0-c0bb-365a-b533-e8f303681c2e.json b/test/data/enm/study-NWKI-35624d25-940c-4ca1-8342-b3a41a43323f.json
index 4861fc9..4861fc9 100644
--- a/test/data/enm/study-NWKI-e24378b0-c0bb-365a-b533-e8f303681c2e.json
+++ b/test/data/enm/study-NWKI-35624d25-940c-4ca1-8342-b3a41a43323f.json
diff --git a/test/data/enm/study-NWKI-35e268e0-2d8f-4904-8a92-34016c907cf4.json b/test/data/enm/study-NWKI-35e268e0-2d8f-4904-8a92-34016c907cf4.json
new file mode 100644
index 0000000..4f7b72f
--- /dev/null
+++ b/test/data/enm/study-NWKI-35e268e0-2d8f-4904-8a92-34016c907cf4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-35e268e0-2d8f-4904-8a92-34016c907cf4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-895a506b-c331-3576-bf9e-cbcde5822c11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 63
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-35e8ff01-974c-41f8-8129-48cc4a203144.json b/test/data/enm/study-NWKI-35e8ff01-974c-41f8-8129-48cc4a203144.json
new file mode 100644
index 0000000..2d047d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-35e8ff01-974c-41f8-8129-48cc4a203144.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-35e8ff01-974c-41f8-8129-48cc4a203144",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b1b44fa-70c1-3034-9c4b-7efb334762e0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-36c3f16a-3250-40ca-b265-e0b23202a5ce.json b/test/data/enm/study-NWKI-36c3f16a-3250-40ca-b265-e0b23202a5ce.json
new file mode 100644
index 0000000..0d4a060
--- /dev/null
+++ b/test/data/enm/study-NWKI-36c3f16a-3250-40ca-b265-e0b23202a5ce.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-36c3f16a-3250-40ca-b265-e0b23202a5ce",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-378cd8d0-d9a4-4700-8fda-0c27fb863dd4.json b/test/data/enm/study-NWKI-378cd8d0-d9a4-4700-8fda-0c27fb863dd4.json
new file mode 100644
index 0000000..47f8a34
--- /dev/null
+++ b/test/data/enm/study-NWKI-378cd8d0-d9a4-4700-8fda-0c27fb863dd4.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-378cd8d0-d9a4-4700-8fda-0c27fb863dd4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3811859b-4696-4635-8556-d86a07808072.json b/test/data/enm/study-NWKI-3811859b-4696-4635-8556-d86a07808072.json
new file mode 100644
index 0000000..beeb5a8
--- /dev/null
+++ b/test/data/enm/study-NWKI-3811859b-4696-4635-8556-d86a07808072.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-3811859b-4696-4635-8556-d86a07808072",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-88767671-5631-3c93-8cfc-db0f48978e77"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-381ff327-4da8-4176-8e57-fa95e52c570d.json b/test/data/enm/study-NWKI-381ff327-4da8-4176-8e57-fa95e52c570d.json
new file mode 100644
index 0000000..842678a
--- /dev/null
+++ b/test/data/enm/study-NWKI-381ff327-4da8-4176-8e57-fa95e52c570d.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-381ff327-4da8-4176-8e57-fa95e52c570d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-666817c2-87cb-3826-92f8-e79a7b37957d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Rutile"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Rutile"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3825451c-f85b-45a4-b830-199dcdb54aff.json b/test/data/enm/study-NWKI-3825451c-f85b-45a4-b830-199dcdb54aff.json
new file mode 100644
index 0000000..9920380
--- /dev/null
+++ b/test/data/enm/study-NWKI-3825451c-f85b-45a4-b830-199dcdb54aff.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-3825451c-f85b-45a4-b830-199dcdb54aff",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFTIC-2DSI"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Succinimidyl_Iodoacatate"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "C1CC(=O)N(C1=O)OC(=O)CI"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Succinimidyl_Iodoacatate"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-38294160-f5b6-4f9e-9ac2-f795767b42ea.json b/test/data/enm/study-NWKI-38294160-f5b6-4f9e-9ac2-f795767b42ea.json
new file mode 100644
index 0000000..7d7518d
--- /dev/null
+++ b/test/data/enm/study-NWKI-38294160-f5b6-4f9e-9ac2-f795767b42ea.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-38294160-f5b6-4f9e-9ac2-f795767b42ea",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-02981dd4-b7d0-34c8-a0ab-dd19a5a40865"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -13.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3941a35c-3571-4154-a31d-354556e86453.json b/test/data/enm/study-NWKI-3941a35c-3571-4154-a31d-354556e86453.json
new file mode 100644
index 0000000..29b0ed8
--- /dev/null
+++ b/test/data/enm/study-NWKI-3941a35c-3571-4154-a31d-354556e86453.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-3941a35c-3571-4154-a31d-354556e86453",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e866549e-38cf-3b98-a0b1-a483e275d261"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Spherical"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Spherical"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-395ec63b-e8b2-420c-9731-683645537ff6.json b/test/data/enm/study-NWKI-395ec63b-e8b2-420c-9731-683645537ff6.json
new file mode 100644
index 0000000..4a191d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-395ec63b-e8b2-420c-9731-683645537ff6.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-395ec63b-e8b2-420c-9731-683645537ff6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8090df08-f0f9-3c2f-8769-b51c2adaffc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -29.4,
+        "errorValue": 5.62
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3988370f-7a39-4e7a-b55f-c15c3587bbec.json b/test/data/enm/study-NWKI-3988370f-7a39-4e7a-b55f-c15c3587bbec.json
new file mode 100644
index 0000000..31117ff
--- /dev/null
+++ b/test/data/enm/study-NWKI-3988370f-7a39-4e7a-b55f-c15c3587bbec.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-3988370f-7a39-4e7a-b55f-c15c3587bbec",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DVT680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "VT680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "VT680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3a1fc931-dd5d-43d5-9d84-734b4307e1b6.json b/test/data/enm/study-NWKI-3a1fc931-dd5d-43d5-9d84-734b4307e1b6.json
new file mode 100644
index 0000000..e3461c2
--- /dev/null
+++ b/test/data/enm/study-NWKI-3a1fc931-dd5d-43d5-9d84-734b4307e1b6.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-3a1fc931-dd5d-43d5-9d84-734b4307e1b6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0fef8d9c-b0c4-3e41-88d0-b85cd538a796"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.74
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3a9bf0cc-82f7-4340-b6b5-f908a9f7089c.json b/test/data/enm/study-NWKI-3a9bf0cc-82f7-4340-b6b5-f908a9f7089c.json
new file mode 100644
index 0000000..ed2c837
--- /dev/null
+++ b/test/data/enm/study-NWKI-3a9bf0cc-82f7-4340-b6b5-f908a9f7089c.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-3a9bf0cc-82f7-4340-b6b5-f908a9f7089c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f40bfb8a-1280-35a2-866c-42b5a3ce13e7"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3ab749d1-ef02-4896-884f-3a95ed8c5601.json b/test/data/enm/study-NWKI-3ab749d1-ef02-4896-884f-3a95ed8c5601.json
new file mode 100644
index 0000000..2c98cec
--- /dev/null
+++ b/test/data/enm/study-NWKI-3ab749d1-ef02-4896-884f-3a95ed8c5601.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-3ab749d1-ef02-4896-884f-3a95ed8c5601",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DSuccAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3ae0012d-9a09-4654-97db-cf210abc97cb.json b/test/data/enm/study-NWKI-3ae0012d-9a09-4654-97db-cf210abc97cb.json
new file mode 100644
index 0000000..7666cfa
--- /dev/null
+++ b/test/data/enm/study-NWKI-3ae0012d-9a09-4654-97db-cf210abc97cb.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-3ae0012d-9a09-4654-97db-cf210abc97cb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-69b604fb-e892-31ba-a6f5-feb6cb04effb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DAF750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "AlexaFluor750"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "AlexaFluor750"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3bcc3eab-4c4a-4e2c-bfe9-889d5697cd00.json b/test/data/enm/study-NWKI-3bcc3eab-4c4a-4e2c-bfe9-889d5697cd00.json
new file mode 100644
index 0000000..ee2ed3d
--- /dev/null
+++ b/test/data/enm/study-NWKI-3bcc3eab-4c4a-4e2c-bfe9-889d5697cd00.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-3bcc3eab-4c4a-4e2c-bfe9-889d5697cd00",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e834e3f1-8c0d-319e-9bac-21c613bdccd0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Ag"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ag"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "TMATCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "TMAT"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SCC[N+](C)(C)C.[I-]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "TMAT"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3c3b9140-6c10-4a7a-a15e-13f9f9b006a5.json b/test/data/enm/study-NWKI-3c3b9140-6c10-4a7a-a15e-13f9f9b006a5.json
new file mode 100644
index 0000000..12c6e89
--- /dev/null
+++ b/test/data/enm/study-NWKI-3c3b9140-6c10-4a7a-a15e-13f9f9b006a5.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-3c3b9140-6c10-4a7a-a15e-13f9f9b006a5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-05ce8604-4efc-376b-a88f-338a90465243"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390.2015.1017022",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Diameter",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Diameter",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74,
+        "errorValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3c42f5fc-0968-4903-98b7-73cfc8889d94.json b/test/data/enm/study-NWKI-3c42f5fc-0968-4903-98b7-73cfc8889d94.json
new file mode 100644
index 0000000..6550c19
--- /dev/null
+++ b/test/data/enm/study-NWKI-3c42f5fc-0968-4903-98b7-73cfc8889d94.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-3c42f5fc-0968-4903-98b7-73cfc8889d94",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3c50948f-f6fe-4734-b2ae-3e3b0442384b.json b/test/data/enm/study-NWKI-3c50948f-f6fe-4734-b2ae-3e3b0442384b.json
new file mode 100644
index 0000000..0687593
--- /dev/null
+++ b/test/data/enm/study-NWKI-3c50948f-f6fe-4734-b2ae-3e3b0442384b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-3c50948f-f6fe-4734-b2ae-3e3b0442384b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-85b50517-fdea-3aa6-abbd-dd506393aaa5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 75
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61c73e33-28ab-3387-8cdf-cb7c135fb06c.json b/test/data/enm/study-NWKI-3c8f8896-6dea-4451-a11f-3c965363955c.json
index bfff265..bfff265 100644
--- a/test/data/enm/study-NWKI-61c73e33-28ab-3387-8cdf-cb7c135fb06c.json
+++ b/test/data/enm/study-NWKI-3c8f8896-6dea-4451-a11f-3c965363955c.json
diff --git a/test/data/enm/study-NWKI-bc434442-e632-3829-be8d-64df1c9b70d3.json b/test/data/enm/study-NWKI-3d0e9cd5-4ad6-4505-a94c-5ef922462050.json
index e68b88d..e68b88d 100644
--- a/test/data/enm/study-NWKI-bc434442-e632-3829-be8d-64df1c9b70d3.json
+++ b/test/data/enm/study-NWKI-3d0e9cd5-4ad6-4505-a94c-5ef922462050.json
diff --git a/test/data/enm/study-NWKI-3d3bad37-27f6-4d18-bc7a-fc2a6010717f.json b/test/data/enm/study-NWKI-3d3bad37-27f6-4d18-bc7a-fc2a6010717f.json
new file mode 100644
index 0000000..fcd6084
--- /dev/null
+++ b/test/data/enm/study-NWKI-3d3bad37-27f6-4d18-bc7a-fc2a6010717f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-3d3bad37-27f6-4d18-bc7a-fc2a6010717f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f3be029d-68f6-310a-87a4-ceffee1b4eda"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 160
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3d42e721-069b-435e-8bcc-7198efc7225e.json b/test/data/enm/study-NWKI-3d42e721-069b-435e-8bcc-7198efc7225e.json
new file mode 100644
index 0000000..4f7dfdb
--- /dev/null
+++ b/test/data/enm/study-NWKI-3d42e721-069b-435e-8bcc-7198efc7225e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-3d42e721-069b-435e-8bcc-7198efc7225e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0d776d00-aec4-3a75-9eb3-453909fc50ed"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -9.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ee237892-6184-3016-92af-b41dc14e9f9b.json b/test/data/enm/study-NWKI-3e4eb704-bc7a-4867-af2f-58c5bc77d35f.json
index 86eda33..86eda33 100644
--- a/test/data/enm/study-NWKI-ee237892-6184-3016-92af-b41dc14e9f9b.json
+++ b/test/data/enm/study-NWKI-3e4eb704-bc7a-4867-af2f-58c5bc77d35f.json
diff --git a/test/data/enm/study-NWKI-3e6e8d72-8f5a-4d0e-b223-bafe14c1fc5f.json b/test/data/enm/study-NWKI-3e6e8d72-8f5a-4d0e-b223-bafe14c1fc5f.json
new file mode 100644
index 0000000..97e67a5
--- /dev/null
+++ b/test/data/enm/study-NWKI-3e6e8d72-8f5a-4d0e-b223-bafe14c1fc5f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-3e6e8d72-8f5a-4d0e-b223-bafe14c1fc5f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 600
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3ea8081e-a695-4448-b20b-8db60debf249.json b/test/data/enm/study-NWKI-3ea8081e-a695-4448-b20b-8db60debf249.json
new file mode 100644
index 0000000..28ddcb7
--- /dev/null
+++ b/test/data/enm/study-NWKI-3ea8081e-a695-4448-b20b-8db60debf249.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-3ea8081e-a695-4448-b20b-8db60debf249",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c7bee4e3-8884-3e29-ad8b-38decf6146fd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3efec963-1abc-49bb-b008-5d665f7d2bf6.json b/test/data/enm/study-NWKI-3efec963-1abc-49bb-b008-5d665f7d2bf6.json
new file mode 100644
index 0000000..a96b4fa
--- /dev/null
+++ b/test/data/enm/study-NWKI-3efec963-1abc-49bb-b008-5d665f7d2bf6.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-3efec963-1abc-49bb-b008-5d665f7d2bf6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad1d5068-29cd-3d8c-9ed0-44ed4ce06ddd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ede00e9f-201f-33c9-9191-8dbf67fcf1b1.json b/test/data/enm/study-NWKI-3f4dfa1e-e8c4-43db-b079-7769a06576ee.json
index bd4ef7c..bd4ef7c 100644
--- a/test/data/enm/study-NWKI-ede00e9f-201f-33c9-9191-8dbf67fcf1b1.json
+++ b/test/data/enm/study-NWKI-3f4dfa1e-e8c4-43db-b079-7769a06576ee.json
diff --git a/test/data/enm/study-NWKI-3f8b35b3-2871-4ba1-9cac-0bff533fc0ac.json b/test/data/enm/study-NWKI-3f8b35b3-2871-4ba1-9cac-0bff533fc0ac.json
new file mode 100644
index 0000000..ef4d8d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-3f8b35b3-2871-4ba1-9cac-0bff533fc0ac.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-3f8b35b3-2871-4ba1-9cac-0bff533fc0ac",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-57943982-0642-388c-be22-f1770d3b620c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3fc5844e-758a-4723-9853-26c51789b4c5.json b/test/data/enm/study-NWKI-3fc5844e-758a-4723-9853-26c51789b4c5.json
new file mode 100644
index 0000000..1819c05
--- /dev/null
+++ b/test/data/enm/study-NWKI-3fc5844e-758a-4723-9853-26c51789b4c5.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-3fc5844e-758a-4723-9853-26c51789b4c5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-86b21444-5403-3e29-b117-e09ef92cca2a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 707
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-40485c29-c870-40f6-a634-682e2601a2d1.json b/test/data/enm/study-NWKI-40485c29-c870-40f6-a634-682e2601a2d1.json
new file mode 100644
index 0000000..7bbccaa
--- /dev/null
+++ b/test/data/enm/study-NWKI-40485c29-c870-40f6-a634-682e2601a2d1.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-40485c29-c870-40f6-a634-682e2601a2d1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e373781b-461e-35dd-ae27-4169b7d743af"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -9.22
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-405149ad-184c-4263-996f-1df90ef019b9.json b/test/data/enm/study-NWKI-405149ad-184c-4263-996f-1df90ef019b9.json
new file mode 100644
index 0000000..b002bd6
--- /dev/null
+++ b/test/data/enm/study-NWKI-405149ad-184c-4263-996f-1df90ef019b9.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-405149ad-184c-4263-996f-1df90ef019b9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6e6a5fec-23c2-3fff-8522-a22689091196"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 590,
+        "upQualifier": "<=",
+        "upValue": 690
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-407a0c47-e0aa-4f22-812b-f34f49f0fb2f.json b/test/data/enm/study-NWKI-407a0c47-e0aa-4f22-812b-f34f49f0fb2f.json
new file mode 100644
index 0000000..5a5b5f9
--- /dev/null
+++ b/test/data/enm/study-NWKI-407a0c47-e0aa-4f22-812b-f34f49f0fb2f.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-407a0c47-e0aa-4f22-812b-f34f49f0fb2f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-845bf8fc-788d-38f2-be58-030f27c0d337"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4171cf30-7412-4059-80ce-8f79a45445b6.json b/test/data/enm/study-NWKI-4171cf30-7412-4059-80ce-8f79a45445b6.json
new file mode 100644
index 0000000..c4e4e3f
--- /dev/null
+++ b/test/data/enm/study-NWKI-4171cf30-7412-4059-80ce-8f79a45445b6.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-4171cf30-7412-4059-80ce-8f79a45445b6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-42360b08-f8be-49c6-98e6-bb8616f090b5.json b/test/data/enm/study-NWKI-42360b08-f8be-49c6-98e6-bb8616f090b5.json
new file mode 100644
index 0000000..a7f7461
--- /dev/null
+++ b/test/data/enm/study-NWKI-42360b08-f8be-49c6-98e6-bb8616f090b5.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-42360b08-f8be-49c6-98e6-bb8616f090b5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4b4cb369-8202-3483-9220-553e433c9159"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.24
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-743f46ab-ca20-3f60-a14f-1695430eae68.json b/test/data/enm/study-NWKI-424e79ab-f8be-4bad-8c1e-2abf76cdcdd7.json
index ac92c1c..ac92c1c 100644
--- a/test/data/enm/study-NWKI-743f46ab-ca20-3f60-a14f-1695430eae68.json
+++ b/test/data/enm/study-NWKI-424e79ab-f8be-4bad-8c1e-2abf76cdcdd7.json
diff --git a/test/data/enm/study-NWKI-42778862-5e5d-49a8-98e2-bdc3c9e3ab2a.json b/test/data/enm/study-NWKI-42778862-5e5d-49a8-98e2-bdc3c9e3ab2a.json
new file mode 100644
index 0000000..508db8d
--- /dev/null
+++ b/test/data/enm/study-NWKI-42778862-5e5d-49a8-98e2-bdc3c9e3ab2a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-42778862-5e5d-49a8-98e2-bdc3c9e3ab2a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a0a7a86-fd00-3835-9795-a4da7d9d1544"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 24
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-42951d23-9941-41f1-b599-8adfde19b8aa.json b/test/data/enm/study-NWKI-42951d23-9941-41f1-b599-8adfde19b8aa.json
new file mode 100644
index 0000000..babe3bb
--- /dev/null
+++ b/test/data/enm/study-NWKI-42951d23-9941-41f1-b599-8adfde19b8aa.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-42951d23-9941-41f1-b599-8adfde19b8aa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4b4cb369-8202-3483-9220-553e433c9159"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY35"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-42eae623-28f5-4ee5-9698-2669c8328041.json b/test/data/enm/study-NWKI-42eae623-28f5-4ee5-9698-2669c8328041.json
new file mode 100644
index 0000000..2d4d6a1
--- /dev/null
+++ b/test/data/enm/study-NWKI-42eae623-28f5-4ee5-9698-2669c8328041.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-42eae623-28f5-4ee5-9698-2669c8328041",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-17c74ed1-b289-3ca1-8477-390a588cb28c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ff480524-2eb0-39e2-a449-47c026f09eb9.json b/test/data/enm/study-NWKI-42eeeb5b-e44c-4039-884d-367249af0038.json
index 92f4a62..92f4a62 100644
--- a/test/data/enm/study-NWKI-ff480524-2eb0-39e2-a449-47c026f09eb9.json
+++ b/test/data/enm/study-NWKI-42eeeb5b-e44c-4039-884d-367249af0038.json
diff --git a/test/data/enm/study-NWKI-4453c171-34c1-400e-96e5-f213258eb9a0.json b/test/data/enm/study-NWKI-4453c171-34c1-400e-96e5-f213258eb9a0.json
new file mode 100644
index 0000000..48b572a
--- /dev/null
+++ b/test/data/enm/study-NWKI-4453c171-34c1-400e-96e5-f213258eb9a0.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-4453c171-34c1-400e-96e5-f213258eb9a0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ca37d03d-af78-3982-8ca0-76025e71fcf1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-44812f4a-7893-4211-b5d4-d1c61cd9e334.json b/test/data/enm/study-NWKI-44812f4a-7893-4211-b5d4-d1c61cd9e334.json
new file mode 100644
index 0000000..20d0cbb
--- /dev/null
+++ b/test/data/enm/study-NWKI-44812f4a-7893-4211-b5d4-d1c61cd9e334.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-44812f4a-7893-4211-b5d4-d1c61cd9e334",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b110d018-6de0-303b-afcc-6a5e1f5911aa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Anatase"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Anatase"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-fe8fe744-ea1f-3841-9a6d-f81be44651a8.json b/test/data/enm/study-NWKI-449dbb75-83c8-4f54-8208-3b0f7093ddc5.json
index ccdce90..ccdce90 100644
--- a/test/data/enm/study-NWKI-fe8fe744-ea1f-3841-9a6d-f81be44651a8.json
+++ b/test/data/enm/study-NWKI-449dbb75-83c8-4f54-8208-3b0f7093ddc5.json
diff --git a/test/data/enm/study-NWKI-45484e90-4453-4b65-a581-2b81994d5d96.json b/test/data/enm/study-NWKI-45484e90-4453-4b65-a581-2b81994d5d96.json
new file mode 100644
index 0000000..9e47b4e
--- /dev/null
+++ b/test/data/enm/study-NWKI-45484e90-4453-4b65-a581-2b81994d5d96.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-45484e90-4453-4b65-a581-2b81994d5d96",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        },
+        "pH": {
+          "loValue": 8.12
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-45a2a522-fd42-4b13-a51c-c2ae30d8e4e8.json b/test/data/enm/study-NWKI-45a2a522-fd42-4b13-a51c-c2ae30d8e4e8.json
new file mode 100644
index 0000000..3ed2d9b
--- /dev/null
+++ b/test/data/enm/study-NWKI-45a2a522-fd42-4b13-a51c-c2ae30d8e4e8.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-45a2a522-fd42-4b13-a51c-c2ae30d8e4e8",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c05becdf-4b9b-3599-9922-89235b2e10da"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-46021e41-3e84-406a-a9db-36bdaa480006.json b/test/data/enm/study-NWKI-46021e41-3e84-406a-a9db-36bdaa480006.json
new file mode 100644
index 0000000..63c7454
--- /dev/null
+++ b/test/data/enm/study-NWKI-46021e41-3e84-406a-a9db-36bdaa480006.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-46021e41-3e84-406a-a9db-36bdaa480006",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad44f58f-8080-3017-9f8d-485fad044849"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -3.61
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2390517f-b763-3850-b1b4-6e50fee63829.json b/test/data/enm/study-NWKI-46590639-f0b8-45ae-ae2f-610b8a912cc4.json
index 512480d..512480d 100644
--- a/test/data/enm/study-NWKI-2390517f-b763-3850-b1b4-6e50fee63829.json
+++ b/test/data/enm/study-NWKI-46590639-f0b8-45ae-ae2f-610b8a912cc4.json
diff --git a/test/data/enm/study-NWKI-46a0c2a5-0e02-4eb7-93fb-e15a56feea9e.json b/test/data/enm/study-NWKI-46a0c2a5-0e02-4eb7-93fb-e15a56feea9e.json
new file mode 100644
index 0000000..bc8990b
--- /dev/null
+++ b/test/data/enm/study-NWKI-46a0c2a5-0e02-4eb7-93fb-e15a56feea9e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-46a0c2a5-0e02-4eb7-93fb-e15a56feea9e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-70e8dac6-42a3-36ed-8fa3-19ffbc3bb69f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 50
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4715a11f-9c3a-4a02-b0f4-d5e05baf2e46.json b/test/data/enm/study-NWKI-4715a11f-9c3a-4a02-b0f4-d5e05baf2e46.json
new file mode 100644
index 0000000..d27c3da
--- /dev/null
+++ b/test/data/enm/study-NWKI-4715a11f-9c3a-4a02-b0f4-d5e05baf2e46.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-4715a11f-9c3a-4a02-b0f4-d5e05baf2e46",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d0a80e1b-1b7f-35c7-9185-244ccc2c04c2"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 9.7,
+        "errorValue": 0.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4716f798-2c74-459d-90ca-dddaf4d0ef9f.json b/test/data/enm/study-NWKI-4716f798-2c74-459d-90ca-dddaf4d0ef9f.json
new file mode 100644
index 0000000..cd3a851
--- /dev/null
+++ b/test/data/enm/study-NWKI-4716f798-2c74-459d-90ca-dddaf4d0ef9f.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-4716f798-2c74-459d-90ca-dddaf4d0ef9f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad44f58f-8080-3017-9f8d-485fad044849"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DRhodamine-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-474fcad3-d31e-434a-92dc-2c1d94802498.json b/test/data/enm/study-NWKI-474fcad3-d31e-434a-92dc-2c1d94802498.json
new file mode 100644
index 0000000..844eb5b
--- /dev/null
+++ b/test/data/enm/study-NWKI-474fcad3-d31e-434a-92dc-2c1d94802498.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-474fcad3-d31e-434a-92dc-2c1d94802498",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 100
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-477db1fa-3728-4edb-8502-7c144290d2b9.json b/test/data/enm/study-NWKI-477db1fa-3728-4edb-8502-7c144290d2b9.json
new file mode 100644
index 0000000..1d85cf9
--- /dev/null
+++ b/test/data/enm/study-NWKI-477db1fa-3728-4edb-8502-7c144290d2b9.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-477db1fa-3728-4edb-8502-7c144290d2b9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5e5ed57f-33d3-39bb-9511-3604a0babf5e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn2021056",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -34.9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-480620bc-921d-48cc-9c5b-12b3e6e10cfe.json b/test/data/enm/study-NWKI-480620bc-921d-48cc-9c5b-12b3e6e10cfe.json
new file mode 100644
index 0000000..fa997e3
--- /dev/null
+++ b/test/data/enm/study-NWKI-480620bc-921d-48cc-9c5b-12b3e6e10cfe.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-480620bc-921d-48cc-9c5b-12b3e6e10cfe",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4b4cb369-8202-3483-9220-553e433c9159"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY35"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cy3.5"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cy3.5"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-485bdc76-7caf-417b-9d38-a4922bbf19fc.json b/test/data/enm/study-NWKI-485bdc76-7caf-417b-9d38-a4922bbf19fc.json
new file mode 100644
index 0000000..8b6d865
--- /dev/null
+++ b/test/data/enm/study-NWKI-485bdc76-7caf-417b-9d38-a4922bbf19fc.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-485bdc76-7caf-417b-9d38-a4922bbf19fc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e373781b-461e-35dd-ae27-4169b7d743af"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6392b929-1b64-34ce-90c6-162b99ce3992.json b/test/data/enm/study-NWKI-494d44b2-073a-4136-b394-0efd79375df2.json
index b0a68cf..b0a68cf 100644
--- a/test/data/enm/study-NWKI-6392b929-1b64-34ce-90c6-162b99ce3992.json
+++ b/test/data/enm/study-NWKI-494d44b2-073a-4136-b394-0efd79375df2.json
diff --git a/test/data/enm/study-NWKI-70e8dac6-42a3-36ed-8fa3-19ffbc3bb69f.json b/test/data/enm/study-NWKI-497f175a-9524-4d84-91bc-041d0423e724.json
index b05d0f7..b05d0f7 100644
--- a/test/data/enm/study-NWKI-70e8dac6-42a3-36ed-8fa3-19ffbc3bb69f.json
+++ b/test/data/enm/study-NWKI-497f175a-9524-4d84-91bc-041d0423e724.json
diff --git a/test/data/enm/study-NWKI-49be8b3f-29c1-42d7-ac5f-ab75e8f2f5a2.json b/test/data/enm/study-NWKI-49be8b3f-29c1-42d7-ac5f-ab75e8f2f5a2.json
new file mode 100644
index 0000000..5758a9f
--- /dev/null
+++ b/test/data/enm/study-NWKI-49be8b3f-29c1-42d7-ac5f-ab75e8f2f5a2.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-49be8b3f-29c1-42d7-ac5f-ab75e8f2f5a2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -11.9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-49ccb387-6de9-4ff5-b90f-7d40e9d964ca.json b/test/data/enm/study-NWKI-49ccb387-6de9-4ff5-b90f-7d40e9d964ca.json
new file mode 100644
index 0000000..6308f56
--- /dev/null
+++ b/test/data/enm/study-NWKI-49ccb387-6de9-4ff5-b90f-7d40e9d964ca.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-49ccb387-6de9-4ff5-b90f-7d40e9d964ca",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3bbccc84-019f-369f-ba70-490fcfde4423"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4a9f81e2-c857-4ca4-820d-95d026a2b83b.json b/test/data/enm/study-NWKI-4a9f81e2-c857-4ca4-820d-95d026a2b83b.json
new file mode 100644
index 0000000..3204a67
--- /dev/null
+++ b/test/data/enm/study-NWKI-4a9f81e2-c857-4ca4-820d-95d026a2b83b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-4a9f81e2-c857-4ca4-820d-95d026a2b83b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "μg/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4ac12800-e71c-437a-b839-fdccb5d18d69.json b/test/data/enm/study-NWKI-4ac12800-e71c-437a-b839-fdccb5d18d69.json
new file mode 100644
index 0000000..f9bce88
--- /dev/null
+++ b/test/data/enm/study-NWKI-4ac12800-e71c-437a-b839-fdccb5d18d69.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-4ac12800-e71c-437a-b839-fdccb5d18d69",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -7.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4acc3309-36a7-4ddf-8a38-458856cd36d6.json b/test/data/enm/study-NWKI-4acc3309-36a7-4ddf-8a38-458856cd36d6.json
new file mode 100644
index 0000000..fd8e51f
--- /dev/null
+++ b/test/data/enm/study-NWKI-4acc3309-36a7-4ddf-8a38-458856cd36d6.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-4acc3309-36a7-4ddf-8a38-458856cd36d6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 0.75,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4ad357a1-06bf-497a-8ae0-8a39796b6e1b.json b/test/data/enm/study-NWKI-4ad357a1-06bf-497a-8ae0-8a39796b6e1b.json
new file mode 100644
index 0000000..61cc469
--- /dev/null
+++ b/test/data/enm/study-NWKI-4ad357a1-06bf-497a-8ae0-8a39796b6e1b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-4ad357a1-06bf-497a-8ae0-8a39796b6e1b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae67096a-fca6-3afc-bade-c362e3eeadc8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -15.1,
+        "errorValue": 2.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4b147634-318e-478b-91fd-be570e516905.json b/test/data/enm/study-NWKI-4b147634-318e-478b-91fd-be570e516905.json
new file mode 100644
index 0000000..d8a3108
--- /dev/null
+++ b/test/data/enm/study-NWKI-4b147634-318e-478b-91fd-be570e516905.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-4b147634-318e-478b-91fd-be570e516905",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f40bfb8a-1280-35a2-866c-42b5a3ce13e7"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-905e44ef-3f7f-314d-add0-3e00439eaded.json b/test/data/enm/study-NWKI-4b60773a-f65a-438f-8299-286082243561.json
index fa531b9..fa531b9 100644
--- a/test/data/enm/study-NWKI-905e44ef-3f7f-314d-add0-3e00439eaded.json
+++ b/test/data/enm/study-NWKI-4b60773a-f65a-438f-8299-286082243561.json
diff --git a/test/data/enm/study-NWKI-4b72cf25-f21a-4add-a046-55ffa1030d9a.json b/test/data/enm/study-NWKI-4b72cf25-f21a-4add-a046-55ffa1030d9a.json
new file mode 100644
index 0000000..9ff1a22
--- /dev/null
+++ b/test/data/enm/study-NWKI-4b72cf25-f21a-4add-a046-55ffa1030d9a.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-4b72cf25-f21a-4add-a046-55ffa1030d9a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-895a506b-c331-3576-bf9e-cbcde5822c11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "PBS"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 73
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4b8cbc90-8984-4fa7-8e0d-24205b96917b.json b/test/data/enm/study-NWKI-4b8cbc90-8984-4fa7-8e0d-24205b96917b.json
new file mode 100644
index 0000000..e2610b4
--- /dev/null
+++ b/test/data/enm/study-NWKI-4b8cbc90-8984-4fa7-8e0d-24205b96917b.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-4b8cbc90-8984-4fa7-8e0d-24205b96917b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0866f605-4cfb-32a2-a704-2cf2a8d3d9a6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4f1a3729-4a88-31bc-abca-7eb6503a73d4.json b/test/data/enm/study-NWKI-4bb154cc-48e2-4286-bdb0-dd65cfff3bc3.json
index 34fce21..34fce21 100644
--- a/test/data/enm/study-NWKI-4f1a3729-4a88-31bc-abca-7eb6503a73d4.json
+++ b/test/data/enm/study-NWKI-4bb154cc-48e2-4286-bdb0-dd65cfff3bc3.json
diff --git a/test/data/enm/study-NWKI-4bd8fefc-f691-4008-a426-c96ca2fda917.json b/test/data/enm/study-NWKI-4bd8fefc-f691-4008-a426-c96ca2fda917.json
new file mode 100644
index 0000000..9ea9830
--- /dev/null
+++ b/test/data/enm/study-NWKI-4bd8fefc-f691-4008-a426-c96ca2fda917.json
@@ -0,0 +1,55 @@
+{
+  "uuid": "NWKI-4bd8fefc-f691-4008-a426-c96ca2fda917",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ea48c37d-840a-30d2-9740-1198a7e2c3b6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_MELTING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000256",
+      "title": "4.2 Melting point / freezing point"
+    },
+    "endpoint": "Melting Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Melting Point",
+      "conditions": {
+        "Decomposition": null,
+        "Sublimation": null
+      },
+      "result": {
+        "unit": "Celsius",
+        "loQualifier": ">=",
+        "loValue": 1600
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4bf35dc7-46c6-4803-95b7-96044af583bb.json b/test/data/enm/study-NWKI-4bf35dc7-46c6-4803-95b7-96044af583bb.json
new file mode 100644
index 0000000..fb484af
--- /dev/null
+++ b/test/data/enm/study-NWKI-4bf35dc7-46c6-4803-95b7-96044af583bb.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-4bf35dc7-46c6-4803-95b7-96044af583bb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-02981dd4-b7d0-34c8-a0ab-dd19a5a40865"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4bf8eec4-5811-473c-bb0a-0ef7d57278fc.json b/test/data/enm/study-NWKI-4bf8eec4-5811-473c-bb0a-0ef7d57278fc.json
new file mode 100644
index 0000000..09dcf0b
--- /dev/null
+++ b/test/data/enm/study-NWKI-4bf8eec4-5811-473c-bb0a-0ef7d57278fc.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-4bf8eec4-5811-473c-bb0a-0ef7d57278fc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "PBS"
+        },
+        "pH": {
+          "loValue": 7.54
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4d004bc3-aed2-42c3-9973-2fbd846c917f.json b/test/data/enm/study-NWKI-4d004bc3-aed2-42c3-9973-2fbd846c917f.json
new file mode 100644
index 0000000..78311e0
--- /dev/null
+++ b/test/data/enm/study-NWKI-4d004bc3-aed2-42c3-9973-2fbd846c917f.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-4d004bc3-aed2-42c3-9973-2fbd846c917f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b6c86895-1b73-39ec-8bd2-0106e77a7673"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DAF488"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "AlexaFluor488"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "AlexaFluor488"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0bb16a46-44a8-353e-ba07-b5835e323537.json b/test/data/enm/study-NWKI-4d3b2e50-6bd6-4ebb-b8d3-ae42c20aa399.json
index 38731d0..38731d0 100644
--- a/test/data/enm/study-NWKI-0bb16a46-44a8-353e-ba07-b5835e323537.json
+++ b/test/data/enm/study-NWKI-4d3b2e50-6bd6-4ebb-b8d3-ae42c20aa399.json
diff --git a/test/data/enm/study-NWKI-4d9128fa-262f-418c-abc4-358f5d190e64.json b/test/data/enm/study-NWKI-4d9128fa-262f-418c-abc4-358f5d190e64.json
new file mode 100644
index 0000000..604c5a1
--- /dev/null
+++ b/test/data/enm/study-NWKI-4d9128fa-262f-418c-abc4-358f5d190e64.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-4d9128fa-262f-418c-abc4-358f5d190e64",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 42
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c35f0f16-4616-3ec6-a142-4d274add68a2.json b/test/data/enm/study-NWKI-4ed9f2c7-b2a3-44b9-ac42-cccc38e89ac8.json
index 656e8d5..656e8d5 100644
--- a/test/data/enm/study-NWKI-c35f0f16-4616-3ec6-a142-4d274add68a2.json
+++ b/test/data/enm/study-NWKI-4ed9f2c7-b2a3-44b9-ac42-cccc38e89ac8.json
diff --git a/test/data/enm/study-NWKI-f4579554-a7fc-3e3f-991a-3b016207fa06.json b/test/data/enm/study-NWKI-4f1aee45-76f4-4e13-9498-f3ad8a6c0883.json
index 3689e65..3689e65 100644
--- a/test/data/enm/study-NWKI-f4579554-a7fc-3e3f-991a-3b016207fa06.json
+++ b/test/data/enm/study-NWKI-4f1aee45-76f4-4e13-9498-f3ad8a6c0883.json
diff --git a/test/data/enm/study-NWKI-4fac17a1-7915-4937-a74c-180f2ca61e5f.json b/test/data/enm/study-NWKI-4fac17a1-7915-4937-a74c-180f2ca61e5f.json
new file mode 100644
index 0000000..d505642
--- /dev/null
+++ b/test/data/enm/study-NWKI-4fac17a1-7915-4937-a74c-180f2ca61e5f.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-4fac17a1-7915-4937-a74c-180f2ca61e5f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4e021275-ae4e-3d24-bdb8-40c6d8d9d6fc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Isoelectric Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ISOELECTRIC POINT",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50291d37-1850-4345-8632-4f912b91c7c0.json b/test/data/enm/study-NWKI-50291d37-1850-4345-8632-4f912b91c7c0.json
new file mode 100644
index 0000000..4985cb2
--- /dev/null
+++ b/test/data/enm/study-NWKI-50291d37-1850-4345-8632-4f912b91c7c0.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-50291d37-1850-4345-8632-4f912b91c7c0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 3.12,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50af5cfe-a337-4bff-b3a6-9d4048072b16.json b/test/data/enm/study-NWKI-50af5cfe-a337-4bff-b3a6-9d4048072b16.json
new file mode 100644
index 0000000..922d316
--- /dev/null
+++ b/test/data/enm/study-NWKI-50af5cfe-a337-4bff-b3a6-9d4048072b16.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-50af5cfe-a337-4bff-b3a6-9d4048072b16",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-67b71fb2-85c1-3130-bd4e-84da8bc05fc9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 10,
+        "upQualifier": "<=",
+        "upValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50d0445d-2ddf-48f0-97a5-f879b4b71de6.json b/test/data/enm/study-NWKI-50d0445d-2ddf-48f0-97a5-f879b4b71de6.json
new file mode 100644
index 0000000..9d0d4e5
--- /dev/null
+++ b/test/data/enm/study-NWKI-50d0445d-2ddf-48f0-97a5-f879b4b71de6.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-50d0445d-2ddf-48f0-97a5-f879b4b71de6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bb304faf-e44e-3103-b2a6-01b99c1c23de"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": -50,
+        "upQualifier": "<=",
+        "upValue": 38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50d10201-2928-49a1-82e9-decaf8df67fd.json b/test/data/enm/study-NWKI-50d10201-2928-49a1-82e9-decaf8df67fd.json
new file mode 100644
index 0000000..f82855e
--- /dev/null
+++ b/test/data/enm/study-NWKI-50d10201-2928-49a1-82e9-decaf8df67fd.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-50d10201-2928-49a1-82e9-decaf8df67fd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50db9231-07eb-4856-8521-05b59b840557.json b/test/data/enm/study-NWKI-50db9231-07eb-4856-8521-05b59b840557.json
new file mode 100644
index 0000000..8868998
--- /dev/null
+++ b/test/data/enm/study-NWKI-50db9231-07eb-4856-8521-05b59b840557.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-50db9231-07eb-4856-8521-05b59b840557",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-50e51401-4fb9-4f7b-b958-ebe38f0d9a21.json b/test/data/enm/study-NWKI-50e51401-4fb9-4f7b-b958-ebe38f0d9a21.json
new file mode 100644
index 0000000..a4b718d
--- /dev/null
+++ b/test/data/enm/study-NWKI-50e51401-4fb9-4f7b-b958-ebe38f0d9a21.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-50e51401-4fb9-4f7b-b958-ebe38f0d9a21",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b1b44fa-70c1-3034-9c4b-7efb334762e0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 61
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-823e6217-d5b0-3c61-b886-768cfe726d38.json b/test/data/enm/study-NWKI-522b7192-5e42-46b5-91e4-7af1ad67f9f8.json
index 7fabee9..7fabee9 100644
--- a/test/data/enm/study-NWKI-823e6217-d5b0-3c61-b886-768cfe726d38.json
+++ b/test/data/enm/study-NWKI-522b7192-5e42-46b5-91e4-7af1ad67f9f8.json
diff --git a/test/data/enm/study-NWKI-523df19a-2a87-409b-86ae-3e3b39945909.json b/test/data/enm/study-NWKI-523df19a-2a87-409b-86ae-3e3b39945909.json
new file mode 100644
index 0000000..18f62ec
--- /dev/null
+++ b/test/data/enm/study-NWKI-523df19a-2a87-409b-86ae-3e3b39945909.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-523df19a-2a87-409b-86ae-3e3b39945909",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 60
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0d6f156a-6ce8-3bac-97e3-b5d62ded7f4e.json b/test/data/enm/study-NWKI-524de060-5f0a-498c-9a47-e2bc418e3977.json
index 34adc8b..34adc8b 100644
--- a/test/data/enm/study-NWKI-0d6f156a-6ce8-3bac-97e3-b5d62ded7f4e.json
+++ b/test/data/enm/study-NWKI-524de060-5f0a-498c-9a47-e2bc418e3977.json
diff --git a/test/data/enm/study-NWKI-5295d5ce-3714-411e-b225-0c769a170e59.json b/test/data/enm/study-NWKI-5295d5ce-3714-411e-b225-0c769a170e59.json
new file mode 100644
index 0000000..a028f47
--- /dev/null
+++ b/test/data/enm/study-NWKI-5295d5ce-3714-411e-b225-0c769a170e59.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-5295d5ce-3714-411e-b225-0c769a170e59",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DProtamine-2DRhodamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Rhodamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Rhodamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-530d1c38-f820-4849-b3bf-71605163bf76.json b/test/data/enm/study-NWKI-530d1c38-f820-4849-b3bf-71605163bf76.json
new file mode 100644
index 0000000..31653a7
--- /dev/null
+++ b/test/data/enm/study-NWKI-530d1c38-f820-4849-b3bf-71605163bf76.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-530d1c38-f820-4849-b3bf-71605163bf76",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-245fc9be-5928-354e-8fd1-ae88663923f1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6a8efcf8-a19c-3fb3-b8ca-3f4e1a09fcb0.json b/test/data/enm/study-NWKI-545da080-c5eb-4a56-b10b-3390d3959238.json
index 3cb850b..3cb850b 100644
--- a/test/data/enm/study-NWKI-6a8efcf8-a19c-3fb3-b8ca-3f4e1a09fcb0.json
+++ b/test/data/enm/study-NWKI-545da080-c5eb-4a56-b10b-3390d3959238.json
diff --git a/test/data/enm/study-NWKI-dfbd99e5-c150-3a5e-9147-59255d42bebb.json b/test/data/enm/study-NWKI-54b3ecd6-68b4-434d-bdaf-32a8c5a6f4f7.json
index b26a23a..b26a23a 100644
--- a/test/data/enm/study-NWKI-dfbd99e5-c150-3a5e-9147-59255d42bebb.json
+++ b/test/data/enm/study-NWKI-54b3ecd6-68b4-434d-bdaf-32a8c5a6f4f7.json
diff --git a/test/data/enm/study-NWKI-55eb46d4-4c78-42d2-9c3a-e131a3a7f19e.json b/test/data/enm/study-NWKI-55eb46d4-4c78-42d2-9c3a-e131a3a7f19e.json
new file mode 100644
index 0000000..83bf777
--- /dev/null
+++ b/test/data/enm/study-NWKI-55eb46d4-4c78-42d2-9c3a-e131a3a7f19e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-55eb46d4-4c78-42d2-9c3a-e131a3a7f19e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-605f4f43-028b-3a42-ae94-9852a9f6f5f8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 331,
+        "errorValue": 19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-55f1adcf-2ae2-4f2f-b61b-b7fe65cf9650.json b/test/data/enm/study-NWKI-55f1adcf-2ae2-4f2f-b61b-b7fe65cf9650.json
new file mode 100644
index 0000000..beed3ba
--- /dev/null
+++ b/test/data/enm/study-NWKI-55f1adcf-2ae2-4f2f-b61b-b7fe65cf9650.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-55f1adcf-2ae2-4f2f-b61b-b7fe65cf9650",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c7bee4e3-8884-3e29-ad8b-38decf6146fd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-560ae138-7a60-412e-bda8-15ef20c1c0d3.json b/test/data/enm/study-NWKI-560ae138-7a60-412e-bda8-15ef20c1c0d3.json
new file mode 100644
index 0000000..63bc418
--- /dev/null
+++ b/test/data/enm/study-NWKI-560ae138-7a60-412e-bda8-15ef20c1c0d3.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-560ae138-7a60-412e-bda8-15ef20c1c0d3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-696f7b05-2dea-3a14-b080-fef134f4eff5.json b/test/data/enm/study-NWKI-566d754e-ac76-4e29-a17e-6e7e815ba719.json
index c9f20ec..c9f20ec 100644
--- a/test/data/enm/study-NWKI-696f7b05-2dea-3a14-b080-fef134f4eff5.json
+++ b/test/data/enm/study-NWKI-566d754e-ac76-4e29-a17e-6e7e815ba719.json
diff --git a/test/data/enm/study-NWKI-56fb25be-18b8-405b-be4f-be843856826b.json b/test/data/enm/study-NWKI-56fb25be-18b8-405b-be4f-be843856826b.json
new file mode 100644
index 0000000..5eda269
--- /dev/null
+++ b/test/data/enm/study-NWKI-56fb25be-18b8-405b-be4f-be843856826b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-56fb25be-18b8-405b-be4f-be843856826b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ed06c39e-c7f2-3173-bd74-35b8257544b5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 129,
+        "upQualifier": "<=",
+        "upValue": 155
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-575b7f67-e068-43e5-b8f4-fae5c192806b.json b/test/data/enm/study-NWKI-575b7f67-e068-43e5-b8f4-fae5c192806b.json
new file mode 100644
index 0000000..733fc7b
--- /dev/null
+++ b/test/data/enm/study-NWKI-575b7f67-e068-43e5-b8f4-fae5c192806b.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-575b7f67-e068-43e5-b8f4-fae5c192806b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-369d200e-2bfc-392d-ae00-ceb41fabd459"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Ag"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ag"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "TMATCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "TMAT"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SCC[N+](C)(C)C.[I-]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "TMAT"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-576e0d8e-08a0-440c-a937-b655c96f1827.json b/test/data/enm/study-NWKI-576e0d8e-08a0-440c-a937-b655c96f1827.json
new file mode 100644
index 0000000..36fe172
--- /dev/null
+++ b/test/data/enm/study-NWKI-576e0d8e-08a0-440c-a937-b655c96f1827.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-576e0d8e-08a0-440c-a937-b655c96f1827",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -10.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-57abdeee-1b76-49b9-a3b3-a0e1e964f2d5.json b/test/data/enm/study-NWKI-57abdeee-1b76-49b9-a3b3-a0e1e964f2d5.json
new file mode 100644
index 0000000..350d513
--- /dev/null
+++ b/test/data/enm/study-NWKI-57abdeee-1b76-49b9-a3b3-a0e1e964f2d5.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-57abdeee-1b76-49b9-a3b3-a0e1e964f2d5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 60
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-57c3ba51-9194-4872-ae89-221f6ca96ec2.json b/test/data/enm/study-NWKI-57c3ba51-9194-4872-ae89-221f6ca96ec2.json
new file mode 100644
index 0000000..409dfe2
--- /dev/null
+++ b/test/data/enm/study-NWKI-57c3ba51-9194-4872-ae89-221f6ca96ec2.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-57c3ba51-9194-4872-ae89-221f6ca96ec2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0fef8d9c-b0c4-3e41-88d0-b85cd538a796.json b/test/data/enm/study-NWKI-57d53a2d-4c4e-41db-99aa-e8fcddac22b3.json
index 19fe307..19fe307 100644
--- a/test/data/enm/study-NWKI-0fef8d9c-b0c4-3e41-88d0-b85cd538a796.json
+++ b/test/data/enm/study-NWKI-57d53a2d-4c4e-41db-99aa-e8fcddac22b3.json
diff --git a/test/data/enm/study-NWKI-57e76541-d6b3-46ea-8b97-70dddfd9667b.json b/test/data/enm/study-NWKI-57e76541-d6b3-46ea-8b97-70dddfd9667b.json
new file mode 100644
index 0000000..4194d7e
--- /dev/null
+++ b/test/data/enm/study-NWKI-57e76541-d6b3-46ea-8b97-70dddfd9667b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-57e76541-d6b3-46ea-8b97-70dddfd9667b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3b09fdd1-3024-3be3-b1c6-332b44f75f99"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-58446ed4-a39a-4505-b359-f1d3008edf25.json b/test/data/enm/study-NWKI-58446ed4-a39a-4505-b359-f1d3008edf25.json
new file mode 100644
index 0000000..6cd0f1d
--- /dev/null
+++ b/test/data/enm/study-NWKI-58446ed4-a39a-4505-b359-f1d3008edf25.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-58446ed4-a39a-4505-b359-f1d3008edf25",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-845bf8fc-788d-38f2-be58-030f27c0d337"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-587bf2ec-a417-4834-8331-2272e3dd6d21.json b/test/data/enm/study-NWKI-587bf2ec-a417-4834-8331-2272e3dd6d21.json
new file mode 100644
index 0000000..fc30a87
--- /dev/null
+++ b/test/data/enm/study-NWKI-587bf2ec-a417-4834-8331-2272e3dd6d21.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-587bf2ec-a417-4834-8331-2272e3dd6d21",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-db562080-5286-327a-b813-6775c437385e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DRCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "RCOOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "O=CO[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "RCOOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-58c79586-50bf-460d-830d-a14c8ad70f8e.json b/test/data/enm/study-NWKI-58c79586-50bf-460d-830d-a14c8ad70f8e.json
new file mode 100644
index 0000000..041e774
--- /dev/null
+++ b/test/data/enm/study-NWKI-58c79586-50bf-460d-830d-a14c8ad70f8e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-58c79586-50bf-460d-830d-a14c8ad70f8e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "cMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 137
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-58ebc4fe-bf67-4eba-ae0b-02a0964fa04d.json b/test/data/enm/study-NWKI-58ebc4fe-bf67-4eba-ae0b-02a0964fa04d.json
new file mode 100644
index 0000000..6a33b72
--- /dev/null
+++ b/test/data/enm/study-NWKI-58ebc4fe-bf67-4eba-ae0b-02a0964fa04d.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-58ebc4fe-bf67-4eba-ae0b-02a0964fa04d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d39efcf3-d871-34c2-ac1c-b48f35bde877"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 9.48,
+        "errorValue": 1.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5939b44d-6d55-4d26-80ff-9f9cd48c58e7.json b/test/data/enm/study-NWKI-5939b44d-6d55-4d26-80ff-9f9cd48c58e7.json
new file mode 100644
index 0000000..f6abb60
--- /dev/null
+++ b/test/data/enm/study-NWKI-5939b44d-6d55-4d26-80ff-9f9cd48c58e7.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-5939b44d-6d55-4d26-80ff-9f9cd48c58e7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-59bb2ce9-3e8b-4b2a-9491-c6e331e716b1.json b/test/data/enm/study-NWKI-59bb2ce9-3e8b-4b2a-9491-c6e331e716b1.json
new file mode 100644
index 0000000..84dc154
--- /dev/null
+++ b/test/data/enm/study-NWKI-59bb2ce9-3e8b-4b2a-9491-c6e331e716b1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-59bb2ce9-3e8b-4b2a-9491-c6e331e716b1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e518c122-5f4f-3611-8b30-56b671883e5c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-37e2b8ec-0e57-3ed8-9afc-93a3030ee25f.json b/test/data/enm/study-NWKI-5a65ec58-f00b-48b5-906b-d3eebf6d34b8.json
index c081ea0..c081ea0 100644
--- a/test/data/enm/study-NWKI-37e2b8ec-0e57-3ed8-9afc-93a3030ee25f.json
+++ b/test/data/enm/study-NWKI-5a65ec58-f00b-48b5-906b-d3eebf6d34b8.json
diff --git a/test/data/enm/study-NWKI-5a74bb96-6612-4622-9aa5-e641a09c9a46.json b/test/data/enm/study-NWKI-5a74bb96-6612-4622-9aa5-e641a09c9a46.json
new file mode 100644
index 0000000..449976a
--- /dev/null
+++ b/test/data/enm/study-NWKI-5a74bb96-6612-4622-9aa5-e641a09c9a46.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-5a74bb96-6612-4622-9aa5-e641a09c9a46",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-04d6ccd0-30ad-3ffc-9f06-8b13709d3a62.json b/test/data/enm/study-NWKI-5a843641-8dbf-4bc3-ab49-400d74d27bab.json
index 46abab4..46abab4 100644
--- a/test/data/enm/study-NWKI-04d6ccd0-30ad-3ffc-9f06-8b13709d3a62.json
+++ b/test/data/enm/study-NWKI-5a843641-8dbf-4bc3-ab49-400d74d27bab.json
diff --git a/test/data/enm/study-NWKI-5acb47b7-d27f-46e6-acfe-6b063106fa87.json b/test/data/enm/study-NWKI-5acb47b7-d27f-46e6-acfe-6b063106fa87.json
new file mode 100644
index 0000000..12c3e42
--- /dev/null
+++ b/test/data/enm/study-NWKI-5acb47b7-d27f-46e6-acfe-6b063106fa87.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-5acb47b7-d27f-46e6-acfe-6b063106fa87",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5bf85889-bc2d-442e-b94f-987670fd6289.json b/test/data/enm/study-NWKI-5bf85889-bc2d-442e-b94f-987670fd6289.json
new file mode 100644
index 0000000..51ca0af
--- /dev/null
+++ b/test/data/enm/study-NWKI-5bf85889-bc2d-442e-b94f-987670fd6289.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-5bf85889-bc2d-442e-b94f-987670fd6289",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-155bb96c-2d7e-384d-b55d-45856eeda386"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5cb2dd63-eaab-411b-97ee-e3f3bae24663.json b/test/data/enm/study-NWKI-5cb2dd63-eaab-411b-97ee-e3f3bae24663.json
new file mode 100644
index 0000000..d3e0d09
--- /dev/null
+++ b/test/data/enm/study-NWKI-5cb2dd63-eaab-411b-97ee-e3f3bae24663.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-5cb2dd63-eaab-411b-97ee-e3f3bae24663",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-694f4202-c0ba-3ed9-a0f3-0a5ccba9e9c1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 226
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5cc3a4e9-7c58-44cf-8e6f-5f297ff4ca6e.json b/test/data/enm/study-NWKI-5cc3a4e9-7c58-44cf-8e6f-5f297ff4ca6e.json
new file mode 100644
index 0000000..20cd9b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-5cc3a4e9-7c58-44cf-8e6f-5f297ff4ca6e.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-5cc3a4e9-7c58-44cf-8e6f-5f297ff4ca6e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e373781b-461e-35dd-ae27-4169b7d743af"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5d7782f7-9f36-4183-a45f-f3e1ff12f8dd.json b/test/data/enm/study-NWKI-5d7782f7-9f36-4183-a45f-f3e1ff12f8dd.json
new file mode 100644
index 0000000..e306744
--- /dev/null
+++ b/test/data/enm/study-NWKI-5d7782f7-9f36-4183-a45f-f3e1ff12f8dd.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-5d7782f7-9f36-4183-a45f-f3e1ff12f8dd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-605f4f43-028b-3a42-ae94-9852a9f6f5f8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 291,
+        "errorValue": 9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5da37282-461c-4564-bfde-d111e4f79e1e.json b/test/data/enm/study-NWKI-5da37282-461c-4564-bfde-d111e4f79e1e.json
new file mode 100644
index 0000000..7fc5f64
--- /dev/null
+++ b/test/data/enm/study-NWKI-5da37282-461c-4564-bfde-d111e4f79e1e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-5da37282-461c-4564-bfde-d111e4f79e1e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -6.54
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-dd6b8324-524e-3281-8bf4-09044fbf01ab.json b/test/data/enm/study-NWKI-5e7ff0d3-fbef-44a0-bbdb-bb0c03fff028.json
index a370173..a370173 100644
--- a/test/data/enm/study-NWKI-dd6b8324-524e-3281-8bf4-09044fbf01ab.json
+++ b/test/data/enm/study-NWKI-5e7ff0d3-fbef-44a0-bbdb-bb0c03fff028.json
diff --git a/test/data/enm/study-NWKI-5f0da6d9-855e-49d6-a566-f8485a4d71f7.json b/test/data/enm/study-NWKI-5f0da6d9-855e-49d6-a566-f8485a4d71f7.json
new file mode 100644
index 0000000..76a9f1e
--- /dev/null
+++ b/test/data/enm/study-NWKI-5f0da6d9-855e-49d6-a566-f8485a4d71f7.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-5f0da6d9-855e-49d6-a566-f8485a4d71f7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3e42f6e5-635a-3f1e-a51a-39ce26751ec9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.82
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5f0f3ffb-4032-48eb-acec-e47064fd0318.json b/test/data/enm/study-NWKI-5f0f3ffb-4032-48eb-acec-e47064fd0318.json
new file mode 100644
index 0000000..74acf1a
--- /dev/null
+++ b/test/data/enm/study-NWKI-5f0f3ffb-4032-48eb-acec-e47064fd0318.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-5f0f3ffb-4032-48eb-acec-e47064fd0318",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cad5bf58-cc90-33e5-88bb-bad4c9f9fe9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.34
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6d5462cc-7e11-3919-b769-135f56fd2536.json b/test/data/enm/study-NWKI-5f396653-ef15-4c28-b5fb-5b0a89ff145e.json
index 72e71f8..72e71f8 100644
--- a/test/data/enm/study-NWKI-6d5462cc-7e11-3919-b769-135f56fd2536.json
+++ b/test/data/enm/study-NWKI-5f396653-ef15-4c28-b5fb-5b0a89ff145e.json
diff --git a/test/data/enm/study-NWKI-5fc1235f-99c4-411a-9173-17421cc226c4.json b/test/data/enm/study-NWKI-5fc1235f-99c4-411a-9173-17421cc226c4.json
new file mode 100644
index 0000000..29d8c64
--- /dev/null
+++ b/test/data/enm/study-NWKI-5fc1235f-99c4-411a-9173-17421cc226c4.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-5fc1235f-99c4-411a-9173-17421cc226c4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e866549e-38cf-3b98-a0b1-a483e275d261"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 1,
+        "upQualifier": "<=",
+        "upValue": 39
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6013fae6-bdb8-4b76-b5e1-1e50b224f6ad.json b/test/data/enm/study-NWKI-6013fae6-bdb8-4b76-b5e1-1e50b224f6ad.json
new file mode 100644
index 0000000..4e9a6ff
--- /dev/null
+++ b/test/data/enm/study-NWKI-6013fae6-bdb8-4b76-b5e1-1e50b224f6ad.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-6013fae6-bdb8-4b76-b5e1-1e50b224f6ad",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a95db64e-5499-371a-bdce-a4aa31f93218"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Ag"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ag"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEECoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEE"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SCCOCCO"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "MEE"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-60bad0b9-135c-4b51-b477-8873d6b53e62.json b/test/data/enm/study-NWKI-60bad0b9-135c-4b51-b477-8873d6b53e62.json
new file mode 100644
index 0000000..9357f2f
--- /dev/null
+++ b/test/data/enm/study-NWKI-60bad0b9-135c-4b51-b477-8873d6b53e62.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-60bad0b9-135c-4b51-b477-8873d6b53e62",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ede0d5b5-191a-3003-ac70-a97397ea7bb2"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101,
+        "errorValue": 7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-60c801de-4063-4e94-badd-5b3ea137ee2e.json b/test/data/enm/study-NWKI-60c801de-4063-4e94-badd-5b3ea137ee2e.json
new file mode 100644
index 0000000..f6d09aa
--- /dev/null
+++ b/test/data/enm/study-NWKI-60c801de-4063-4e94-badd-5b3ea137ee2e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-60c801de-4063-4e94-badd-5b3ea137ee2e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-60c8a08a-5a5d-4e78-9eca-c17fa70ada6e.json b/test/data/enm/study-NWKI-60c8a08a-5a5d-4e78-9eca-c17fa70ada6e.json
new file mode 100644
index 0000000..07eabd7
--- /dev/null
+++ b/test/data/enm/study-NWKI-60c8a08a-5a5d-4e78-9eca-c17fa70ada6e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-60c8a08a-5a5d-4e78-9eca-c17fa70ada6e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-60d8ff8a-334d-4aec-8840-fe9237f2ed52.json b/test/data/enm/study-NWKI-60d8ff8a-334d-4aec-8840-fe9237f2ed52.json
new file mode 100644
index 0000000..9505a84
--- /dev/null
+++ b/test/data/enm/study-NWKI-60d8ff8a-334d-4aec-8840-fe9237f2ed52.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-60d8ff8a-334d-4aec-8840-fe9237f2ed52",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61140943-e725-4000-adda-54d56323cc38.json b/test/data/enm/study-NWKI-61140943-e725-4000-adda-54d56323cc38.json
new file mode 100644
index 0000000..aa0ae3f
--- /dev/null
+++ b/test/data/enm/study-NWKI-61140943-e725-4000-adda-54d56323cc38.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-61140943-e725-4000-adda-54d56323cc38",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c012600e-ca8e-31db-a7a8-d9f6a74e2464"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61169e69-160a-4883-bb5b-57864cfaa226.json b/test/data/enm/study-NWKI-61169e69-160a-4883-bb5b-57864cfaa226.json
new file mode 100644
index 0000000..a5a0792
--- /dev/null
+++ b/test/data/enm/study-NWKI-61169e69-160a-4883-bb5b-57864cfaa226.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-61169e69-160a-4883-bb5b-57864cfaa226",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c5e226b0-d405-32d5-a652-7f7f1f0eb55d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81,
+        "errorValue": 12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-615e9046-2352-43b1-8061-c5863c389eba.json b/test/data/enm/study-NWKI-615e9046-2352-43b1-8061-c5863c389eba.json
new file mode 100644
index 0000000..ca400ed
--- /dev/null
+++ b/test/data/enm/study-NWKI-615e9046-2352-43b1-8061-c5863c389eba.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-615e9046-2352-43b1-8061-c5863c389eba",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-619ad025-d12a-40d6-b802-11c7bc1c5f0c.json b/test/data/enm/study-NWKI-619ad025-d12a-40d6-b802-11c7bc1c5f0c.json
new file mode 100644
index 0000000..c2c8296
--- /dev/null
+++ b/test/data/enm/study-NWKI-619ad025-d12a-40d6-b802-11c7bc1c5f0c.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-619ad025-d12a-40d6-b802-11c7bc1c5f0c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ab2d4bdd-7a72-3e26-8552-5bb6027896bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -12.2,
+        "errorValue": 0.97
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61ac7714-8bcb-4b22-9c49-8897a34459f8.json b/test/data/enm/study-NWKI-61ac7714-8bcb-4b22-9c49-8897a34459f8.json
new file mode 100644
index 0000000..5315605
--- /dev/null
+++ b/test/data/enm/study-NWKI-61ac7714-8bcb-4b22-9c49-8897a34459f8.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-61ac7714-8bcb-4b22-9c49-8897a34459f8",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-afc33b0f-f6ce-3c1b-8a3d-cede13515323"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amino_SPARK680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino_SPARK680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61cd966e-d293-4e74-810d-c96d7226a885.json b/test/data/enm/study-NWKI-61cd966e-d293-4e74-810d-c96d7226a885.json
new file mode 100644
index 0000000..1517664
--- /dev/null
+++ b/test/data/enm/study-NWKI-61cd966e-d293-4e74-810d-c96d7226a885.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-61cd966e-d293-4e74-810d-c96d7226a885",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-61e74c49-caba-449a-ab8b-79ce619474c7.json b/test/data/enm/study-NWKI-61e74c49-caba-449a-ab8b-79ce619474c7.json
new file mode 100644
index 0000000..c4a2e6e
--- /dev/null
+++ b/test/data/enm/study-NWKI-61e74c49-caba-449a-ab8b-79ce619474c7.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-61e74c49-caba-449a-ab8b-79ce619474c7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 100
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-623ab83d-a129-4153-b30d-a653ecea4137.json b/test/data/enm/study-NWKI-623ab83d-a129-4153-b30d-a653ecea4137.json
new file mode 100644
index 0000000..e3c5c4b
--- /dev/null
+++ b/test/data/enm/study-NWKI-623ab83d-a129-4153-b30d-a653ecea4137.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-623ab83d-a129-4153-b30d-a653ecea4137",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-62723dfc-941e-4efa-971d-d4061c205c37.json b/test/data/enm/study-NWKI-62723dfc-941e-4efa-971d-d4061c205c37.json
new file mode 100644
index 0000000..4c37a92
--- /dev/null
+++ b/test/data/enm/study-NWKI-62723dfc-941e-4efa-971d-d4061c205c37.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-62723dfc-941e-4efa-971d-d4061c205c37",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 70
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-62c6c671-de0c-421a-9359-a4fb45ba7d0a.json b/test/data/enm/study-NWKI-62c6c671-de0c-421a-9359-a4fb45ba7d0a.json
new file mode 100644
index 0000000..340a55d
--- /dev/null
+++ b/test/data/enm/study-NWKI-62c6c671-de0c-421a-9359-a4fb45ba7d0a.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-62c6c671-de0c-421a-9359-a4fb45ba7d0a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DVT680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-632864fb-ead5-48bd-abdf-93ac2d6db3d2.json b/test/data/enm/study-NWKI-632864fb-ead5-48bd-abdf-93ac2d6db3d2.json
new file mode 100644
index 0000000..f2322a1
--- /dev/null
+++ b/test/data/enm/study-NWKI-632864fb-ead5-48bd-abdf-93ac2d6db3d2.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-632864fb-ead5-48bd-abdf-93ac2d6db3d2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6340f201-e40f-44e0-9cc0-bd91711785b2.json b/test/data/enm/study-NWKI-6340f201-e40f-44e0-9cc0-bd91711785b2.json
new file mode 100644
index 0000000..c090b11
--- /dev/null
+++ b/test/data/enm/study-NWKI-6340f201-e40f-44e0-9cc0-bd91711785b2.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-6340f201-e40f-44e0-9cc0-bd91711785b2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-473ed1d8-ae5a-3c80-b3f7-50dbc4fd9a3b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -21,
+        "errorValue": 5.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-637e25c9-223d-4680-b358-bf11344c0385.json b/test/data/enm/study-NWKI-637e25c9-223d-4680-b358-bf11344c0385.json
new file mode 100644
index 0000000..e9674c1
--- /dev/null
+++ b/test/data/enm/study-NWKI-637e25c9-223d-4680-b358-bf11344c0385.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-637e25c9-223d-4680-b358-bf11344c0385",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6cab56b4-69d9-36e0-8c17-f467d08b2555"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -12.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-63d64d8b-df0b-4dae-84e6-ae6bd3ac623c.json b/test/data/enm/study-NWKI-63d64d8b-df0b-4dae-84e6-ae6bd3ac623c.json
new file mode 100644
index 0000000..3888c56
--- /dev/null
+++ b/test/data/enm/study-NWKI-63d64d8b-df0b-4dae-84e6-ae6bd3ac623c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-63d64d8b-df0b-4dae-84e6-ae6bd3ac623c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7efe542f-264c-3b57-a516-410b730df963"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-63de74e0-3b63-435a-ad62-cc9645d3cc15.json b/test/data/enm/study-NWKI-63de74e0-3b63-435a-ad62-cc9645d3cc15.json
new file mode 100644
index 0000000..f6737c3
--- /dev/null
+++ b/test/data/enm/study-NWKI-63de74e0-3b63-435a-ad62-cc9645d3cc15.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-63de74e0-3b63-435a-ad62-cc9645d3cc15",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 120
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11bd7878-7fd9-365c-8f01-a452d9c7f4ec.json b/test/data/enm/study-NWKI-63df02d3-d55b-4a25-abfd-f73d2b958075.json
index 280bd5f..280bd5f 100644
--- a/test/data/enm/study-NWKI-11bd7878-7fd9-365c-8f01-a452d9c7f4ec.json
+++ b/test/data/enm/study-NWKI-63df02d3-d55b-4a25-abfd-f73d2b958075.json
diff --git a/test/data/enm/study-NWKI-640f103a-1955-416a-a656-356884730cea.json b/test/data/enm/study-NWKI-640f103a-1955-416a-a656-356884730cea.json
new file mode 100644
index 0000000..69cc83e
--- /dev/null
+++ b/test/data/enm/study-NWKI-640f103a-1955-416a-a656-356884730cea.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-640f103a-1955-416a-a656-356884730cea",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f3be029d-68f6-310a-87a4-ceffee1b4eda"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 8,
+        "upQualifier": "<=",
+        "upValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d0a80e1b-1b7f-35c7-9185-244ccc2c04c2.json b/test/data/enm/study-NWKI-64af3435-8edb-4585-8167-3a4e8ed2ea6a.json
index 9262279..9262279 100644
--- a/test/data/enm/study-NWKI-d0a80e1b-1b7f-35c7-9185-244ccc2c04c2.json
+++ b/test/data/enm/study-NWKI-64af3435-8edb-4585-8167-3a4e8ed2ea6a.json
diff --git a/test/data/enm/study-NWKI-64c482f1-7978-4160-8430-08ab8392c4a2.json b/test/data/enm/study-NWKI-64c482f1-7978-4160-8430-08ab8392c4a2.json
new file mode 100644
index 0000000..0d57126
--- /dev/null
+++ b/test/data/enm/study-NWKI-64c482f1-7978-4160-8430-08ab8392c4a2.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-64c482f1-7978-4160-8430-08ab8392c4a2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6e6a5fec-23c2-3fff-8522-a22689091196"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 5,
+        "upQualifier": "<=",
+        "upValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-64f89bf1-d825-4cdb-8c59-87301ec7befc.json b/test/data/enm/study-NWKI-64f89bf1-d825-4cdb-8c59-87301ec7befc.json
new file mode 100644
index 0000000..732e6ba
--- /dev/null
+++ b/test/data/enm/study-NWKI-64f89bf1-d825-4cdb-8c59-87301ec7befc.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-64f89bf1-d825-4cdb-8c59-87301ec7befc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "PBS"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a95db64e-5499-371a-bdce-a4aa31f93218.json b/test/data/enm/study-NWKI-65922873-2b18-467a-8b0d-7d985d296419.json
index 723c9f4..723c9f4 100644
--- a/test/data/enm/study-NWKI-a95db64e-5499-371a-bdce-a4aa31f93218.json
+++ b/test/data/enm/study-NWKI-65922873-2b18-467a-8b0d-7d985d296419.json
diff --git a/test/data/enm/study-NWKI-65e45fc5-68ff-416e-b735-6e10a7eae383.json b/test/data/enm/study-NWKI-65e45fc5-68ff-416e-b735-6e10a7eae383.json
new file mode 100644
index 0000000..eb9d677
--- /dev/null
+++ b/test/data/enm/study-NWKI-65e45fc5-68ff-416e-b735-6e10a7eae383.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-65e45fc5-68ff-416e-b735-6e10a7eae383",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -20.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-65f7ef57-354f-4d82-ac39-a4e4aafb49b0.json b/test/data/enm/study-NWKI-65f7ef57-354f-4d82-ac39-a4e4aafb49b0.json
new file mode 100644
index 0000000..2787772
--- /dev/null
+++ b/test/data/enm/study-NWKI-65f7ef57-354f-4d82-ac39-a4e4aafb49b0.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-65f7ef57-354f-4d82-ac39-a4e4aafb49b0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-66eb1f6f-5461-4ab5-a476-38de7568df69.json b/test/data/enm/study-NWKI-66eb1f6f-5461-4ab5-a476-38de7568df69.json
new file mode 100644
index 0000000..6207cdc
--- /dev/null
+++ b/test/data/enm/study-NWKI-66eb1f6f-5461-4ab5-a476-38de7568df69.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-66eb1f6f-5461-4ab5-a476-38de7568df69",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bb97285c-a58f-34c0-aa16-d5eac02280fa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 4.98,
+        "errorValue": 0.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-66eeb62c-4a93-4a73-bb8a-276e5552057b.json b/test/data/enm/study-NWKI-66eeb62c-4a93-4a73-bb8a-276e5552057b.json
new file mode 100644
index 0000000..ea9bd4f
--- /dev/null
+++ b/test/data/enm/study-NWKI-66eeb62c-4a93-4a73-bb8a-276e5552057b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-66eeb62c-4a93-4a73-bb8a-276e5552057b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-671aae68-2d9e-4cda-b5d5-136d0abcb830.json b/test/data/enm/study-NWKI-671aae68-2d9e-4cda-b5d5-136d0abcb830.json
new file mode 100644
index 0000000..16233ae
--- /dev/null
+++ b/test/data/enm/study-NWKI-671aae68-2d9e-4cda-b5d5-136d0abcb830.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-671aae68-2d9e-4cda-b5d5-136d0abcb830",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6784e795-4fb3-45e8-8fca-faeb49758250.json b/test/data/enm/study-NWKI-6784e795-4fb3-45e8-8fca-faeb49758250.json
new file mode 100644
index 0000000..2ad4983
--- /dev/null
+++ b/test/data/enm/study-NWKI-6784e795-4fb3-45e8-8fca-faeb49758250.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-6784e795-4fb3-45e8-8fca-faeb49758250",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-682685bb-7a15-4b40-abf0-1f94320c83c4.json b/test/data/enm/study-NWKI-682685bb-7a15-4b40-abf0-1f94320c83c4.json
new file mode 100644
index 0000000..41af496
--- /dev/null
+++ b/test/data/enm/study-NWKI-682685bb-7a15-4b40-abf0-1f94320c83c4.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-682685bb-7a15-4b40-abf0-1f94320c83c4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f43d9fb-94ae-3d2b-8bb6-e8eb060e3b1b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Isoelectric Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ISOELECTRIC POINT",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 8.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0866f605-4cfb-32a2-a704-2cf2a8d3d9a6.json b/test/data/enm/study-NWKI-683a3a11-0be9-4fbe-a659-ce59d3de9778.json
index e4dfb3b..e4dfb3b 100644
--- a/test/data/enm/study-NWKI-0866f605-4cfb-32a2-a704-2cf2a8d3d9a6.json
+++ b/test/data/enm/study-NWKI-683a3a11-0be9-4fbe-a659-ce59d3de9778.json
diff --git a/test/data/enm/study-NWKI-68518793-a783-4d93-94ce-118ae5876f5f.json b/test/data/enm/study-NWKI-68518793-a783-4d93-94ce-118ae5876f5f.json
new file mode 100644
index 0000000..168188c
--- /dev/null
+++ b/test/data/enm/study-NWKI-68518793-a783-4d93-94ce-118ae5876f5f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-68518793-a783-4d93-94ce-118ae5876f5f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 19.2,
+        "errorValue": 4.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6882b12d-f37a-4512-b33a-0cf922f61e1f.json b/test/data/enm/study-NWKI-6882b12d-f37a-4512-b33a-0cf922f61e1f.json
new file mode 100644
index 0000000..cbc5411
--- /dev/null
+++ b/test/data/enm/study-NWKI-6882b12d-f37a-4512-b33a-0cf922f61e1f.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-6882b12d-f37a-4512-b33a-0cf922f61e1f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b1b44fa-70c1-3034-9c4b-7efb334762e0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Rutile-Anatase"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Rutile-Anatase"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-691d614d-a497-4a8f-bfdc-a6375b2e5230.json b/test/data/enm/study-NWKI-691d614d-a497-4a8f-bfdc-a6375b2e5230.json
new file mode 100644
index 0000000..49ecd4e
--- /dev/null
+++ b/test/data/enm/study-NWKI-691d614d-a497-4a8f-bfdc-a6375b2e5230.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-691d614d-a497-4a8f-bfdc-a6375b2e5230",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a13f473-8a29-32e4-9653-ec03f5fb8923"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "CdSe"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "CdSe"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "AmphPolymer-2DPEG"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amphiphillic_Polymer"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amphiphillic_Polymer"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-692e09d2-5c50-48ac-99ae-5f29d6d76c6b.json b/test/data/enm/study-NWKI-692e09d2-5c50-48ac-99ae-5f29d6d76c6b.json
new file mode 100644
index 0000000..c9bd197
--- /dev/null
+++ b/test/data/enm/study-NWKI-692e09d2-5c50-48ac-99ae-5f29d6d76c6b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-692e09d2-5c50-48ac-99ae-5f29d6d76c6b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6967b484-7d24-4415-b944-ba5a978a90e5.json b/test/data/enm/study-NWKI-6967b484-7d24-4415-b944-ba5a978a90e5.json
new file mode 100644
index 0000000..895bfb0
--- /dev/null
+++ b/test/data/enm/study-NWKI-6967b484-7d24-4415-b944-ba5a978a90e5.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-6967b484-7d24-4415-b944-ba5a978a90e5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-506de59a-ae92-361b-a934-0fdfa41101c0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DVT680-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Protamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Protamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-697e44f6-d1ab-4c2d-a376-b27b73527cde.json b/test/data/enm/study-NWKI-697e44f6-d1ab-4c2d-a376-b27b73527cde.json
new file mode 100644
index 0000000..aa42ed3
--- /dev/null
+++ b/test/data/enm/study-NWKI-697e44f6-d1ab-4c2d-a376-b27b73527cde.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-697e44f6-d1ab-4c2d-a376-b27b73527cde",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4551e0f7-e515-3cdb-a099-c2b99b04883d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-69eced5c-94d1-4166-b97f-16df82011345.json b/test/data/enm/study-NWKI-69eced5c-94d1-4166-b97f-16df82011345.json
new file mode 100644
index 0000000..9b5b4be
--- /dev/null
+++ b/test/data/enm/study-NWKI-69eced5c-94d1-4166-b97f-16df82011345.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-69eced5c-94d1-4166-b97f-16df82011345",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a32cb420-7aa2-3130-9612-edfe833d83fc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 50,
+        "upQualifier": "<=",
+        "upValue": 70
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-bec49753-e5ff-3f5d-96a4-69a07da2de45.json b/test/data/enm/study-NWKI-6a508e43-b24e-4c97-b503-62c22c4f73ce.json
index 34fdff1..34fdff1 100644
--- a/test/data/enm/study-NWKI-bec49753-e5ff-3f5d-96a4-69a07da2de45.json
+++ b/test/data/enm/study-NWKI-6a508e43-b24e-4c97-b503-62c22c4f73ce.json
diff --git a/test/data/enm/study-NWKI-6ab0a013-da8f-44be-938b-9371e5d3204a.json b/test/data/enm/study-NWKI-6ab0a013-da8f-44be-938b-9371e5d3204a.json
new file mode 100644
index 0000000..d7039c6
--- /dev/null
+++ b/test/data/enm/study-NWKI-6ab0a013-da8f-44be-938b-9371e5d3204a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-6ab0a013-da8f-44be-938b-9371e5d3204a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-04887adf-9687-3699-8054-e7e3f695e6db"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6abcbd39-35c8-49c6-87b5-df816062ff1e.json b/test/data/enm/study-NWKI-6abcbd39-35c8-49c6-87b5-df816062ff1e.json
new file mode 100644
index 0000000..ca02305
--- /dev/null
+++ b/test/data/enm/study-NWKI-6abcbd39-35c8-49c6-87b5-df816062ff1e.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-6abcbd39-35c8-49c6-87b5-df816062ff1e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ad1d5068-29cd-3d8c-9ed0-44ed4ce06ddd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DVT680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "VT680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "VT680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6ac5caa9-3bac-4c7b-82a5-a2a8dbd9662e.json b/test/data/enm/study-NWKI-6ac5caa9-3bac-4c7b-82a5-a2a8dbd9662e.json
new file mode 100644
index 0000000..ac6050e
--- /dev/null
+++ b/test/data/enm/study-NWKI-6ac5caa9-3bac-4c7b-82a5-a2a8dbd9662e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-6ac5caa9-3bac-4c7b-82a5-a2a8dbd9662e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4beee533-65e4-364a-adb7-7a520180de61"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 140
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6b99a175-d74d-4b75-8d95-6c5cdfd44b77.json b/test/data/enm/study-NWKI-6b99a175-d74d-4b75-8d95-6c5cdfd44b77.json
new file mode 100644
index 0000000..22b904d
--- /dev/null
+++ b/test/data/enm/study-NWKI-6b99a175-d74d-4b75-8d95-6c5cdfd44b77.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-6b99a175-d74d-4b75-8d95-6c5cdfd44b77",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6baece3d-5a42-491e-8a52-1e6dcb6f9c16.json b/test/data/enm/study-NWKI-6baece3d-5a42-491e-8a52-1e6dcb6f9c16.json
new file mode 100644
index 0000000..00cde1f
--- /dev/null
+++ b/test/data/enm/study-NWKI-6baece3d-5a42-491e-8a52-1e6dcb6f9c16.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-6baece3d-5a42-491e-8a52-1e6dcb6f9c16",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8196e92b-c46d-3c14-9410-e87992810710"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "ED-2DPVA"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6bbb3609-fac2-40f4-b5bd-5fe1a1752123.json b/test/data/enm/study-NWKI-6bbb3609-fac2-40f4-b5bd-5fe1a1752123.json
new file mode 100644
index 0000000..2d34645
--- /dev/null
+++ b/test/data/enm/study-NWKI-6bbb3609-fac2-40f4-b5bd-5fe1a1752123.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-6bbb3609-fac2-40f4-b5bd-5fe1a1752123",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 135
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6bf0a7f3-3346-488b-b1e9-1955be794790.json b/test/data/enm/study-NWKI-6bf0a7f3-3346-488b-b1e9-1955be794790.json
new file mode 100644
index 0000000..cc085c8
--- /dev/null
+++ b/test/data/enm/study-NWKI-6bf0a7f3-3346-488b-b1e9-1955be794790.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-6bf0a7f3-3346-488b-b1e9-1955be794790",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFTIC-2DSI"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6bf2f56b-24a9-4340-b7f5-8e45fe446d9c.json b/test/data/enm/study-NWKI-6bf2f56b-24a9-4340-b7f5-8e45fe446d9c.json
new file mode 100644
index 0000000..ab7c3e7
--- /dev/null
+++ b/test/data/enm/study-NWKI-6bf2f56b-24a9-4340-b7f5-8e45fe446d9c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-6bf2f56b-24a9-4340-b7f5-8e45fe446d9c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5f88a526-3e3f-3da5-8082-8d1da0cdfefa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-71060af4-1613-35cf-95ee-2a039be0388a.json b/test/data/enm/study-NWKI-6bfc3b55-c53c-4b28-a094-351b9097689a.json
index 2aff23b..2aff23b 100644
--- a/test/data/enm/study-NWKI-71060af4-1613-35cf-95ee-2a039be0388a.json
+++ b/test/data/enm/study-NWKI-6bfc3b55-c53c-4b28-a094-351b9097689a.json
diff --git a/test/data/enm/study-NWKI-6c5523aa-3814-41a9-8ecf-f3d9e1fe54a1.json b/test/data/enm/study-NWKI-6c5523aa-3814-41a9-8ecf-f3d9e1fe54a1.json
new file mode 100644
index 0000000..729d8c5
--- /dev/null
+++ b/test/data/enm/study-NWKI-6c5523aa-3814-41a9-8ecf-f3d9e1fe54a1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-6c5523aa-3814-41a9-8ecf-f3d9e1fe54a1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e078849d-6137-33fc-b103-d458cb77184a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 110,
+        "errorValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6d2a9c66-a782-4fce-be33-3570612ae7f9.json b/test/data/enm/study-NWKI-6d2a9c66-a782-4fce-be33-3570612ae7f9.json
new file mode 100644
index 0000000..793975d
--- /dev/null
+++ b/test/data/enm/study-NWKI-6d2a9c66-a782-4fce-be33-3570612ae7f9.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-6d2a9c66-a782-4fce-be33-3570612ae7f9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DProtamine-2DRhodamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-002f5129-d46a-39c7-8f26-5626aec2174e.json b/test/data/enm/study-NWKI-6da0d960-35d3-4b23-a173-f72214be91c9.json
index e838dcb..e838dcb 100644
--- a/test/data/enm/study-NWKI-002f5129-d46a-39c7-8f26-5626aec2174e.json
+++ b/test/data/enm/study-NWKI-6da0d960-35d3-4b23-a173-f72214be91c9.json
diff --git a/test/data/enm/study-NWKI-6e00aa34-24b7-4414-ab3f-01dac388cfd3.json b/test/data/enm/study-NWKI-6e00aa34-24b7-4414-ab3f-01dac388cfd3.json
new file mode 100644
index 0000000..e0aa8de
--- /dev/null
+++ b/test/data/enm/study-NWKI-6e00aa34-24b7-4414-ab3f-01dac388cfd3.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-6e00aa34-24b7-4414-ab3f-01dac388cfd3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0455b6e1-5203-37bb-a98b-20460acceda1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY35-2DTat"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cy3.5"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cy3.5"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6e4da6a5-c3cc-4d15-9f28-d4462792e8fa.json b/test/data/enm/study-NWKI-6e4da6a5-c3cc-4d15-9f28-d4462792e8fa.json
new file mode 100644
index 0000000..d11aa2d
--- /dev/null
+++ b/test/data/enm/study-NWKI-6e4da6a5-c3cc-4d15-9f28-d4462792e8fa.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-6e4da6a5-c3cc-4d15-9f28-d4462792e8fa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b4d33a5-b573-3dbe-9ec3-9d2a9bc42a2e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 3.37,
+        "errorValue": 0.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-70113708-d18b-4539-93ab-b866d5a05700.json b/test/data/enm/study-NWKI-70113708-d18b-4539-93ab-b866d5a05700.json
new file mode 100644
index 0000000..4e4bcd1
--- /dev/null
+++ b/test/data/enm/study-NWKI-70113708-d18b-4539-93ab-b866d5a05700.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-70113708-d18b-4539-93ab-b866d5a05700",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-895a506b-c331-3576-bf9e-cbcde5822c11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        },
+        "pH": {
+          "loValue": 7.98
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -21
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7047ec54-4363-4217-b0bf-9b8dc6816321.json b/test/data/enm/study-NWKI-7047ec54-4363-4217-b0bf-9b8dc6816321.json
new file mode 100644
index 0000000..9c77ffc
--- /dev/null
+++ b/test/data/enm/study-NWKI-7047ec54-4363-4217-b0bf-9b8dc6816321.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-7047ec54-4363-4217-b0bf-9b8dc6816321",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DAminoSPARK680IVM"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PEG"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PEG"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-70e8b5b5-4372-4ab2-a285-a8b623b5286e.json b/test/data/enm/study-NWKI-70e8b5b5-4372-4ab2-a285-a8b623b5286e.json
new file mode 100644
index 0000000..9521100
--- /dev/null
+++ b/test/data/enm/study-NWKI-70e8b5b5-4372-4ab2-a285-a8b623b5286e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-70e8b5b5-4372-4ab2-a285-a8b623b5286e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c2ab6def-8305-3b78-958a-4657b3363e11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-71efc69b-47a4-46f9-95cf-094d9b61ea83.json b/test/data/enm/study-NWKI-71efc69b-47a4-46f9-95cf-094d9b61ea83.json
new file mode 100644
index 0000000..7ab5119
--- /dev/null
+++ b/test/data/enm/study-NWKI-71efc69b-47a4-46f9-95cf-094d9b61ea83.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-71efc69b-47a4-46f9-95cf-094d9b61ea83",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7238a946-65a9-4767-9857-e655fb3766af.json b/test/data/enm/study-NWKI-7238a946-65a9-4767-9857-e655fb3766af.json
new file mode 100644
index 0000000..bc010c9
--- /dev/null
+++ b/test/data/enm/study-NWKI-7238a946-65a9-4767-9857-e655fb3766af.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-7238a946-65a9-4767-9857-e655fb3766af",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-72aa6911-b06c-4440-96d5-9209a49aceb3.json b/test/data/enm/study-NWKI-72aa6911-b06c-4440-96d5-9209a49aceb3.json
new file mode 100644
index 0000000..96ff553
--- /dev/null
+++ b/test/data/enm/study-NWKI-72aa6911-b06c-4440-96d5-9209a49aceb3.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-72aa6911-b06c-4440-96d5-9209a49aceb3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFTIC-2DSI"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-86b21444-5403-3e29-b117-e09ef92cca2a.json b/test/data/enm/study-NWKI-72d5df53-e275-429b-b016-acd988de6623.json
index 8a04e8c..8a04e8c 100644
--- a/test/data/enm/study-NWKI-86b21444-5403-3e29-b117-e09ef92cca2a.json
+++ b/test/data/enm/study-NWKI-72d5df53-e275-429b-b016-acd988de6623.json
diff --git a/test/data/enm/study-NWKI-72e8aef4-1362-43e6-a9db-e5762369bdd5.json b/test/data/enm/study-NWKI-72e8aef4-1362-43e6-a9db-e5762369bdd5.json
new file mode 100644
index 0000000..0372545
--- /dev/null
+++ b/test/data/enm/study-NWKI-72e8aef4-1362-43e6-a9db-e5762369bdd5.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-72e8aef4-1362-43e6-a9db-e5762369bdd5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-734860bb-ab9d-468a-97a0-699ad0a6b5a6.json b/test/data/enm/study-NWKI-734860bb-ab9d-468a-97a0-699ad0a6b5a6.json
new file mode 100644
index 0000000..4ec8734
--- /dev/null
+++ b/test/data/enm/study-NWKI-734860bb-ab9d-468a-97a0-699ad0a6b5a6.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-734860bb-ab9d-468a-97a0-699ad0a6b5a6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3d8aaa66-97d9-351b-9771-691300d5e97c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 42,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-738ed836-1ded-475f-9c03-e0ab21241fa2.json b/test/data/enm/study-NWKI-738ed836-1ded-475f-9c03-e0ab21241fa2.json
new file mode 100644
index 0000000..ebf499d
--- /dev/null
+++ b/test/data/enm/study-NWKI-738ed836-1ded-475f-9c03-e0ab21241fa2.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-738ed836-1ded-475f-9c03-e0ab21241fa2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a13f473-8a29-32e4-9653-ec03f5fb8923"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -11.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-73c27928-2a28-43a0-a6d6-239372d0ce63.json b/test/data/enm/study-NWKI-73c27928-2a28-43a0-a6d6-239372d0ce63.json
new file mode 100644
index 0000000..027dfed
--- /dev/null
+++ b/test/data/enm/study-NWKI-73c27928-2a28-43a0-a6d6-239372d0ce63.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-73c27928-2a28-43a0-a6d6-239372d0ce63",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-db562080-5286-327a-b813-6775c437385e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-73e01519-c024-4897-b01d-ce4498bf39f5.json b/test/data/enm/study-NWKI-73e01519-c024-4897-b01d-ce4498bf39f5.json
new file mode 100644
index 0000000..c6fca45
--- /dev/null
+++ b/test/data/enm/study-NWKI-73e01519-c024-4897-b01d-ce4498bf39f5.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-73e01519-c024-4897-b01d-ce4498bf39f5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 70
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-747ef516-d7f4-4088-ae9b-cd7f03254766.json b/test/data/enm/study-NWKI-747ef516-d7f4-4088-ae9b-cd7f03254766.json
new file mode 100644
index 0000000..f64d0d4
--- /dev/null
+++ b/test/data/enm/study-NWKI-747ef516-d7f4-4088-ae9b-cd7f03254766.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-747ef516-d7f4-4088-ae9b-cd7f03254766",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-566286ef-03eb-317a-8d9d-24fffefefc0b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn200546k",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-749775b3-4a3a-4e7e-9fee-422114dc700d.json b/test/data/enm/study-NWKI-749775b3-4a3a-4e7e-9fee-422114dc700d.json
new file mode 100644
index 0000000..fc61cc9
--- /dev/null
+++ b/test/data/enm/study-NWKI-749775b3-4a3a-4e7e-9fee-422114dc700d.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-749775b3-4a3a-4e7e-9fee-422114dc700d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-535c1a8b-71d0-3388-aaf5-e3a5c86510cb.json b/test/data/enm/study-NWKI-752659af-c93e-48c9-a3ba-84063d1c76d0.json
index 2d7aa68..2d7aa68 100644
--- a/test/data/enm/study-NWKI-535c1a8b-71d0-3388-aaf5-e3a5c86510cb.json
+++ b/test/data/enm/study-NWKI-752659af-c93e-48c9-a3ba-84063d1c76d0.json
diff --git a/test/data/enm/study-NWKI-7558ca2a-c4f0-4c5c-b6b2-e6eabf75bad5.json b/test/data/enm/study-NWKI-7558ca2a-c4f0-4c5c-b6b2-e6eabf75bad5.json
new file mode 100644
index 0000000..66686da
--- /dev/null
+++ b/test/data/enm/study-NWKI-7558ca2a-c4f0-4c5c-b6b2-e6eabf75bad5.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-7558ca2a-c4f0-4c5c-b6b2-e6eabf75bad5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7580b78e-f6ab-4615-89e2-ec3487c23316.json b/test/data/enm/study-NWKI-7580b78e-f6ab-4615-89e2-ec3487c23316.json
new file mode 100644
index 0000000..1f8ab65
--- /dev/null
+++ b/test/data/enm/study-NWKI-7580b78e-f6ab-4615-89e2-ec3487c23316.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-7580b78e-f6ab-4615-89e2-ec3487c23316",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DRhodamine-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Protamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Protamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-566286ef-03eb-317a-8d9d-24fffefefc0b.json b/test/data/enm/study-NWKI-75c8848d-c75a-4628-a3e6-ebdac796acf9.json
index 27d1153..27d1153 100644
--- a/test/data/enm/study-NWKI-566286ef-03eb-317a-8d9d-24fffefefc0b.json
+++ b/test/data/enm/study-NWKI-75c8848d-c75a-4628-a3e6-ebdac796acf9.json
diff --git a/test/data/enm/study-NWKI-bb2f1a47-0260-3271-b9c3-edb850d15be9.json b/test/data/enm/study-NWKI-75da2ea6-d0d3-4a13-8e26-43f82a437d8a.json
index 63a0b1d..63a0b1d 100644
--- a/test/data/enm/study-NWKI-bb2f1a47-0260-3271-b9c3-edb850d15be9.json
+++ b/test/data/enm/study-NWKI-75da2ea6-d0d3-4a13-8e26-43f82a437d8a.json
diff --git a/test/data/enm/study-NWKI-7663a389-7d00-4dca-84ce-ae8134f5c34d.json b/test/data/enm/study-NWKI-7663a389-7d00-4dca-84ce-ae8134f5c34d.json
new file mode 100644
index 0000000..0141053
--- /dev/null
+++ b/test/data/enm/study-NWKI-7663a389-7d00-4dca-84ce-ae8134f5c34d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-7663a389-7d00-4dca-84ce-ae8134f5c34d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-768421ee-d5b3-4964-9f46-fb1cbf0afc2f.json b/test/data/enm/study-NWKI-768421ee-d5b3-4964-9f46-fb1cbf0afc2f.json
new file mode 100644
index 0000000..36f5389
--- /dev/null
+++ b/test/data/enm/study-NWKI-768421ee-d5b3-4964-9f46-fb1cbf0afc2f.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-768421ee-d5b3-4964-9f46-fb1cbf0afc2f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "PBS"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 158
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-76deec17-0c64-4888-83cd-468ed71b340d.json b/test/data/enm/study-NWKI-76deec17-0c64-4888-83cd-468ed71b340d.json
new file mode 100644
index 0000000..b106fb7
--- /dev/null
+++ b/test/data/enm/study-NWKI-76deec17-0c64-4888-83cd-468ed71b340d.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-76deec17-0c64-4888-83cd-468ed71b340d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4e62b022-02b9-35e7-a653-7ee317f54ae8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3390/ijerph110908867",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14,
+        "errorValue": 4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0e10a982-4c8b-3f90-af19-8cd443575fc4.json b/test/data/enm/study-NWKI-76fa4f88-0375-441b-ab01-f1c1a1003c83.json
index b048383..b048383 100644
--- a/test/data/enm/study-NWKI-0e10a982-4c8b-3f90-af19-8cd443575fc4.json
+++ b/test/data/enm/study-NWKI-76fa4f88-0375-441b-ab01-f1c1a1003c83.json
diff --git a/test/data/enm/study-NWKI-6ede15ea-8037-379f-933e-7b947e155c6a.json b/test/data/enm/study-NWKI-77206c3d-0288-45eb-9c5c-6f5e5245e499.json
index 828c348..828c348 100644
--- a/test/data/enm/study-NWKI-6ede15ea-8037-379f-933e-7b947e155c6a.json
+++ b/test/data/enm/study-NWKI-77206c3d-0288-45eb-9c5c-6f5e5245e499.json
diff --git a/test/data/enm/study-NWKI-a03a76c5-85b2-3b10-b567-87ca006c15ac.json b/test/data/enm/study-NWKI-7768d3c9-59f0-40c7-8c3f-0391d02d48cb.json
index f5bf837..f5bf837 100644
--- a/test/data/enm/study-NWKI-a03a76c5-85b2-3b10-b567-87ca006c15ac.json
+++ b/test/data/enm/study-NWKI-7768d3c9-59f0-40c7-8c3f-0391d02d48cb.json
diff --git a/test/data/enm/study-NWKI-778c56be-5ec6-4032-90fe-f5d965330f71.json b/test/data/enm/study-NWKI-778c56be-5ec6-4032-90fe-f5d965330f71.json
new file mode 100644
index 0000000..47c08b4
--- /dev/null
+++ b/test/data/enm/study-NWKI-778c56be-5ec6-4032-90fe-f5d965330f71.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-778c56be-5ec6-4032-90fe-f5d965330f71",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 100
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-77a0bdb0-e565-46c3-aacd-f5a21ca277ba.json b/test/data/enm/study-NWKI-77a0bdb0-e565-46c3-aacd-f5a21ca277ba.json
new file mode 100644
index 0000000..5bb788e
--- /dev/null
+++ b/test/data/enm/study-NWKI-77a0bdb0-e565-46c3-aacd-f5a21ca277ba.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-77a0bdb0-e565-46c3-aacd-f5a21ca277ba",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-11ae9232-1521-31d6-9466-c902c43d94fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DTatPeptide"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Tat_Peptide"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Tat_Peptide"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-239abeb4-eb11-3e6e-8301-d486e21861aa.json b/test/data/enm/study-NWKI-7805dbcb-b630-4900-85b4-f481b61a6700.json
index 76562f9..76562f9 100644
--- a/test/data/enm/study-NWKI-239abeb4-eb11-3e6e-8301-d486e21861aa.json
+++ b/test/data/enm/study-NWKI-7805dbcb-b630-4900-85b4-f481b61a6700.json
diff --git a/test/data/enm/study-NWKI-788732bb-6b81-4d0b-a592-ddcf1c28215c.json b/test/data/enm/study-NWKI-788732bb-6b81-4d0b-a592-ddcf1c28215c.json
new file mode 100644
index 0000000..6cb4a0b
--- /dev/null
+++ b/test/data/enm/study-NWKI-788732bb-6b81-4d0b-a592-ddcf1c28215c.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-788732bb-6b81-4d0b-a592-ddcf1c28215c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7680f6c2-68d8-3ee4-b84b-8107da3f6e19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "DextranCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-79239c97-8c61-42a5-b567-49225a4c097d.json b/test/data/enm/study-NWKI-79239c97-8c61-42a5-b567-49225a4c097d.json
new file mode 100644
index 0000000..fde9a7f
--- /dev/null
+++ b/test/data/enm/study-NWKI-79239c97-8c61-42a5-b567-49225a4c097d.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-79239c97-8c61-42a5-b567-49225a4c097d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52e8adb0-6aba-3e7f-bc0c-85cb36c394a2"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 300
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-79a0ef0d-c979-4cb3-b2fd-548525f90784.json b/test/data/enm/study-NWKI-79a0ef0d-c979-4cb3-b2fd-548525f90784.json
new file mode 100644
index 0000000..5040e55
--- /dev/null
+++ b/test/data/enm/study-NWKI-79a0ef0d-c979-4cb3-b2fd-548525f90784.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-79a0ef0d-c979-4cb3-b2fd-548525f90784",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-79cd1b2b-5087-4093-a1bf-a35101e22425.json b/test/data/enm/study-NWKI-79cd1b2b-5087-4093-a1bf-a35101e22425.json
new file mode 100644
index 0000000..25b91b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-79cd1b2b-5087-4093-a1bf-a35101e22425.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-79cd1b2b-5087-4093-a1bf-a35101e22425",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7a9b2e95-0470-4a91-b2e3-f1190082b8ef.json b/test/data/enm/study-NWKI-7a9b2e95-0470-4a91-b2e3-f1190082b8ef.json
new file mode 100644
index 0000000..25db6c1
--- /dev/null
+++ b/test/data/enm/study-NWKI-7a9b2e95-0470-4a91-b2e3-f1190082b8ef.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-7a9b2e95-0470-4a91-b2e3-f1190082b8ef",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-85b50517-fdea-3aa6-abbd-dd506393aaa5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 8,
+        "upQualifier": "<=",
+        "upValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-205a198f-fcb8-3870-b99c-c6f252783613.json b/test/data/enm/study-NWKI-7ab06dee-e576-4808-8c00-6a3085733458.json
index 7ac516e..7ac516e 100644
--- a/test/data/enm/study-NWKI-205a198f-fcb8-3870-b99c-c6f252783613.json
+++ b/test/data/enm/study-NWKI-7ab06dee-e576-4808-8c00-6a3085733458.json
diff --git a/test/data/enm/study-NWKI-7ad548f9-6e7a-42f8-9093-c57657cc0152.json b/test/data/enm/study-NWKI-7ad548f9-6e7a-42f8-9093-c57657cc0152.json
new file mode 100644
index 0000000..15df3ff
--- /dev/null
+++ b/test/data/enm/study-NWKI-7ad548f9-6e7a-42f8-9093-c57657cc0152.json
@@ -0,0 +1,54 @@
+{
+  "uuid": "NWKI-7ad548f9-6e7a-42f8-9093-c57657cc0152",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-67b71fb2-85c1-3130-bd4e-84da8bc05fc9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_BOILING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000257",
+      "title": "4.3 Boiling point"
+    },
+    "endpoint": "Boiling Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Boiling point",
+      "conditions": {
+        "Atm. Pressure": null,
+        "Decomposition": null
+      },
+      "result": {
+        "unit": "°C",
+        "loValue": 2230
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7af108f2-05bc-4a05-8c0e-1c25e1df902e.json b/test/data/enm/study-NWKI-7af108f2-05bc-4a05-8c0e-1c25e1df902e.json
new file mode 100644
index 0000000..f81f785
--- /dev/null
+++ b/test/data/enm/study-NWKI-7af108f2-05bc-4a05-8c0e-1c25e1df902e.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-7af108f2-05bc-4a05-8c0e-1c25e1df902e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-994226ce-df01-3717-b45d-376f645a8d47"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7c7cc761-6167-4f01-bc70-1e227d40ee50.json b/test/data/enm/study-NWKI-7c7cc761-6167-4f01-bc70-1e227d40ee50.json
new file mode 100644
index 0000000..f73dfd1
--- /dev/null
+++ b/test/data/enm/study-NWKI-7c7cc761-6167-4f01-bc70-1e227d40ee50.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-7c7cc761-6167-4f01-bc70-1e227d40ee50",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31.4,
+        "errorValue": 3.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3e6392b9-35fb-39ad-ad98-f6d6de37659a.json b/test/data/enm/study-NWKI-7cc65f18-bc91-4048-b73c-5de3962794a2.json
index 08fa8d3..08fa8d3 100644
--- a/test/data/enm/study-NWKI-3e6392b9-35fb-39ad-ad98-f6d6de37659a.json
+++ b/test/data/enm/study-NWKI-7cc65f18-bc91-4048-b73c-5de3962794a2.json
diff --git a/test/data/enm/study-NWKI-7d1bd000-b1da-4f1e-b1f3-0dc4cfb7c580.json b/test/data/enm/study-NWKI-7d1bd000-b1da-4f1e-b1f3-0dc4cfb7c580.json
new file mode 100644
index 0000000..3638ad7
--- /dev/null
+++ b/test/data/enm/study-NWKI-7d1bd000-b1da-4f1e-b1f3-0dc4cfb7c580.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-7d1bd000-b1da-4f1e-b1f3-0dc4cfb7c580",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 66,
+        "errorValue": 5.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7d6af12a-493d-43f2-89c0-0f4bcdf01aa2.json b/test/data/enm/study-NWKI-7d6af12a-493d-43f2-89c0-0f4bcdf01aa2.json
new file mode 100644
index 0000000..861a4c4
--- /dev/null
+++ b/test/data/enm/study-NWKI-7d6af12a-493d-43f2-89c0-0f4bcdf01aa2.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-7d6af12a-493d-43f2-89c0-0f4bcdf01aa2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7fca9f1b-fb2a-3fa5-a080-21391413787d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Ag"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ag"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEEECoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "MEEE"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "SCCOCCOCCO"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "MEEE"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-fc00f3ef-464d-32d3-9d12-7e78d25db6ce.json b/test/data/enm/study-NWKI-7d72e67e-e739-4b03-bd83-a64ee99ea87b.json
index 448bf80..448bf80 100644
--- a/test/data/enm/study-NWKI-fc00f3ef-464d-32d3-9d12-7e78d25db6ce.json
+++ b/test/data/enm/study-NWKI-7d72e67e-e739-4b03-bd83-a64ee99ea87b.json
diff --git a/test/data/enm/study-NWKI-674cfd7c-bc77-36c7-bbe0-d52dd0233d64.json b/test/data/enm/study-NWKI-7daf91aa-55cd-4134-823f-507d470782dd.json
index ea9641e..ea9641e 100644
--- a/test/data/enm/study-NWKI-674cfd7c-bc77-36c7-bbe0-d52dd0233d64.json
+++ b/test/data/enm/study-NWKI-7daf91aa-55cd-4134-823f-507d470782dd.json
diff --git a/test/data/enm/study-NWKI-7dcedd15-3194-4b36-980e-ccf0d9f9cd64.json b/test/data/enm/study-NWKI-7dcedd15-3194-4b36-980e-ccf0d9f9cd64.json
new file mode 100644
index 0000000..3e0dce6
--- /dev/null
+++ b/test/data/enm/study-NWKI-7dcedd15-3194-4b36-980e-ccf0d9f9cd64.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-7dcedd15-3194-4b36-980e-ccf0d9f9cd64",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93a9eb3-83df-3522-b417-7b3a379054a6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Average Length",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Average Length",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "μm",
+        "loValue": 1.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7e127b23-d54f-4fb6-aecf-3a3d2c3ca482.json b/test/data/enm/study-NWKI-7e127b23-d54f-4fb6-aecf-3a3d2c3ca482.json
new file mode 100644
index 0000000..5b6ffbd
--- /dev/null
+++ b/test/data/enm/study-NWKI-7e127b23-d54f-4fb6-aecf-3a3d2c3ca482.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-7e127b23-d54f-4fb6-aecf-3a3d2c3ca482",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -58
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7e264886-37ae-4a67-aeb4-f7050badc42f.json b/test/data/enm/study-NWKI-7e264886-37ae-4a67-aeb4-f7050badc42f.json
new file mode 100644
index 0000000..693fbc7
--- /dev/null
+++ b/test/data/enm/study-NWKI-7e264886-37ae-4a67-aeb4-f7050badc42f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-7e264886-37ae-4a67-aeb4-f7050badc42f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 3000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7e2e36fe-303f-4576-a1e8-ffcee6b3ee4a.json b/test/data/enm/study-NWKI-7e2e36fe-303f-4576-a1e8-ffcee6b3ee4a.json
new file mode 100644
index 0000000..f18f112
--- /dev/null
+++ b/test/data/enm/study-NWKI-7e2e36fe-303f-4576-a1e8-ffcee6b3ee4a.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-7e2e36fe-303f-4576-a1e8-ffcee6b3ee4a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3481f716-18fa-39b3-aa54-4acb67877194"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -9.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7f5e6119-a6a6-42ee-8b17-260f67461566.json b/test/data/enm/study-NWKI-7f5e6119-a6a6-42ee-8b17-260f67461566.json
new file mode 100644
index 0000000..899270b
--- /dev/null
+++ b/test/data/enm/study-NWKI-7f5e6119-a6a6-42ee-8b17-260f67461566.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-7f5e6119-a6a6-42ee-8b17-260f67461566",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-47d254de-8242-3374-9ed3-085227d473cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3bbccc84-019f-369f-ba70-490fcfde4423.json b/test/data/enm/study-NWKI-7f8d8e04-e3c9-4ea4-9df4-7b57920649f6.json
index 862014e..862014e 100644
--- a/test/data/enm/study-NWKI-3bbccc84-019f-369f-ba70-490fcfde4423.json
+++ b/test/data/enm/study-NWKI-7f8d8e04-e3c9-4ea4-9df4-7b57920649f6.json
diff --git a/test/data/enm/study-NWKI-7f9c80a3-8113-4697-9c9f-6501b9101571.json b/test/data/enm/study-NWKI-7f9c80a3-8113-4697-9c9f-6501b9101571.json
new file mode 100644
index 0000000..dc0536b
--- /dev/null
+++ b/test/data/enm/study-NWKI-7f9c80a3-8113-4697-9c9f-6501b9101571.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-7f9c80a3-8113-4697-9c9f-6501b9101571",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f43d9fb-94ae-3d2b-8bb6-e8eb060e3b1b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 120
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7fd4ed19-440a-4c19-9563-9e54b040dee8.json b/test/data/enm/study-NWKI-7fd4ed19-440a-4c19-9563-9e54b040dee8.json
new file mode 100644
index 0000000..46d7ddf
--- /dev/null
+++ b/test/data/enm/study-NWKI-7fd4ed19-440a-4c19-9563-9e54b040dee8.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-7fd4ed19-440a-4c19-9563-9e54b040dee8",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7fe22f1d-e036-445c-8c61-46ab914871c6.json b/test/data/enm/study-NWKI-7fe22f1d-e036-445c-8c61-46ab914871c6.json
new file mode 100644
index 0000000..8813fd0
--- /dev/null
+++ b/test/data/enm/study-NWKI-7fe22f1d-e036-445c-8c61-46ab914871c6.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-7fe22f1d-e036-445c-8c61-46ab914871c6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 8
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 100
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-81088c1d-747c-46a8-b3e7-5559d15ead7c.json b/test/data/enm/study-NWKI-81088c1d-747c-46a8-b3e7-5559d15ead7c.json
new file mode 100644
index 0000000..d069467
--- /dev/null
+++ b/test/data/enm/study-NWKI-81088c1d-747c-46a8-b3e7-5559d15ead7c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-81088c1d-747c-46a8-b3e7-5559d15ead7c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4e62b022-02b9-35e7-a653-7ee317f54ae8.json b/test/data/enm/study-NWKI-81217635-d689-47e3-ac04-edd53506bff8.json
index aac5298..aac5298 100644
--- a/test/data/enm/study-NWKI-4e62b022-02b9-35e7-a653-7ee317f54ae8.json
+++ b/test/data/enm/study-NWKI-81217635-d689-47e3-ac04-edd53506bff8.json
diff --git a/test/data/enm/study-NWKI-81278690-b827-4d5b-8c54-092a3c1c354a.json b/test/data/enm/study-NWKI-81278690-b827-4d5b-8c54-092a3c1c354a.json
new file mode 100644
index 0000000..71a5b7d
--- /dev/null
+++ b/test/data/enm/study-NWKI-81278690-b827-4d5b-8c54-092a3c1c354a.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-81278690-b827-4d5b-8c54-092a3c1c354a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-81546ced-dc22-4cb5-8737-19aa4ad1de93.json b/test/data/enm/study-NWKI-81546ced-dc22-4cb5-8737-19aa4ad1de93.json
new file mode 100644
index 0000000..e5f4e5e
--- /dev/null
+++ b/test/data/enm/study-NWKI-81546ced-dc22-4cb5-8737-19aa4ad1de93.json
@@ -0,0 +1,54 @@
+{
+  "uuid": "NWKI-81546ced-dc22-4cb5-8737-19aa4ad1de93",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6e6a5fec-23c2-3fff-8522-a22689091196"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_BOILING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000257",
+      "title": "4.3 Boiling point"
+    },
+    "endpoint": "Boiling Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Boiling point",
+      "conditions": {
+        "Atm. Pressure": null,
+        "Decomposition": null
+      },
+      "result": {
+        "unit": "°C",
+        "loValue": 2230
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-05ce8604-4efc-376b-a88f-338a90465243.json b/test/data/enm/study-NWKI-81fdf4e1-b6a9-4129-9d10-7c001906557a.json
index b08cbd0..b08cbd0 100644
--- a/test/data/enm/study-NWKI-05ce8604-4efc-376b-a88f-338a90465243.json
+++ b/test/data/enm/study-NWKI-81fdf4e1-b6a9-4129-9d10-7c001906557a.json
diff --git a/test/data/enm/study-NWKI-825f394c-e93a-4520-a6b4-cd40458ab3a7.json b/test/data/enm/study-NWKI-825f394c-e93a-4520-a6b4-cd40458ab3a7.json
new file mode 100644
index 0000000..354760b
--- /dev/null
+++ b/test/data/enm/study-NWKI-825f394c-e93a-4520-a6b4-cd40458ab3a7.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-825f394c-e93a-4520-a6b4-cd40458ab3a7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-826c8eb7-0eac-4b4f-bfc3-085855091704.json b/test/data/enm/study-NWKI-826c8eb7-0eac-4b4f-bfc3-085855091704.json
new file mode 100644
index 0000000..6154b5d
--- /dev/null
+++ b/test/data/enm/study-NWKI-826c8eb7-0eac-4b4f-bfc3-085855091704.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-826c8eb7-0eac-4b4f-bfc3-085855091704",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8271ac6a-e858-4db5-b391-bd29e949631f.json b/test/data/enm/study-NWKI-8271ac6a-e858-4db5-b391-bd29e949631f.json
new file mode 100644
index 0000000..2f202cd
--- /dev/null
+++ b/test/data/enm/study-NWKI-8271ac6a-e858-4db5-b391-bd29e949631f.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-8271ac6a-e858-4db5-b391-bd29e949631f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4551e0f7-e515-3cdb-a099-c2b99b04883d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7fca9f1b-fb2a-3fa5-a080-21391413787d.json b/test/data/enm/study-NWKI-827ec00c-a596-4f38-b9ad-08f943876e31.json
index 5d9af52..5d9af52 100644
--- a/test/data/enm/study-NWKI-7fca9f1b-fb2a-3fa5-a080-21391413787d.json
+++ b/test/data/enm/study-NWKI-827ec00c-a596-4f38-b9ad-08f943876e31.json
diff --git a/test/data/enm/study-NWKI-828e1658-5bdd-445f-bbfe-458a9abf7c30.json b/test/data/enm/study-NWKI-828e1658-5bdd-445f-bbfe-458a9abf7c30.json
new file mode 100644
index 0000000..40c493e
--- /dev/null
+++ b/test/data/enm/study-NWKI-828e1658-5bdd-445f-bbfe-458a9abf7c30.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-828e1658-5bdd-445f-bbfe-458a9abf7c30",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-82d881e8-7cd5-4a89-9c16-51987673aad2.json b/test/data/enm/study-NWKI-82d881e8-7cd5-4a89-9c16-51987673aad2.json
new file mode 100644
index 0000000..00990e9
--- /dev/null
+++ b/test/data/enm/study-NWKI-82d881e8-7cd5-4a89-9c16-51987673aad2.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-82d881e8-7cd5-4a89-9c16-51987673aad2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f6f54a71-9459-397b-b0f7-b27538cff042"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10.7,
+        "errorValue": 0.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-82ed7739-5461-4950-8043-2cad14dd4a4a.json b/test/data/enm/study-NWKI-82ed7739-5461-4950-8043-2cad14dd4a4a.json
new file mode 100644
index 0000000..2d1d067
--- /dev/null
+++ b/test/data/enm/study-NWKI-82ed7739-5461-4950-8043-2cad14dd4a4a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-82ed7739-5461-4950-8043-2cad14dd4a4a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4832de65-5a92-3849-8061-729a2d83017e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2e056907-7ac9-3b13-a599-ee10f2548d78.json b/test/data/enm/study-NWKI-8418de03-f2af-4c3f-821a-6f6420a4d1a2.json
index 0f8f646..0f8f646 100644
--- a/test/data/enm/study-NWKI-2e056907-7ac9-3b13-a599-ee10f2548d78.json
+++ b/test/data/enm/study-NWKI-8418de03-f2af-4c3f-821a-6f6420a4d1a2.json
diff --git a/test/data/enm/study-NWKI-846ab593-674b-4f4b-9012-257e7bfa77fe.json b/test/data/enm/study-NWKI-846ab593-674b-4f4b-9012-257e7bfa77fe.json
new file mode 100644
index 0000000..5e89532
--- /dev/null
+++ b/test/data/enm/study-NWKI-846ab593-674b-4f4b-9012-257e7bfa77fe.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-846ab593-674b-4f4b-9012-257e7bfa77fe",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 500,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 69
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-854d40ae-447a-4eaa-99bc-1e08310325ea.json b/test/data/enm/study-NWKI-854d40ae-447a-4eaa-99bc-1e08310325ea.json
new file mode 100644
index 0000000..2a9a0eb
--- /dev/null
+++ b/test/data/enm/study-NWKI-854d40ae-447a-4eaa-99bc-1e08310325ea.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-854d40ae-447a-4eaa-99bc-1e08310325ea",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a41ca03-303d-3116-89fb-2335cc1bad2d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 250
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-85588bf6-8956-4f51-84e8-96a3d38ea4ce.json b/test/data/enm/study-NWKI-85588bf6-8956-4f51-84e8-96a3d38ea4ce.json
new file mode 100644
index 0000000..28f180e
--- /dev/null
+++ b/test/data/enm/study-NWKI-85588bf6-8956-4f51-84e8-96a3d38ea4ce.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-85588bf6-8956-4f51-84e8-96a3d38ea4ce",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-db562080-5286-327a-b813-6775c437385e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DRCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-86218576-1edf-4bb7-9778-f931ffe7cff1.json b/test/data/enm/study-NWKI-86218576-1edf-4bb7-9778-f931ffe7cff1.json
new file mode 100644
index 0000000..a3602ff
--- /dev/null
+++ b/test/data/enm/study-NWKI-86218576-1edf-4bb7-9778-f931ffe7cff1.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-86218576-1edf-4bb7-9778-f931ffe7cff1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DVT750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-04887adf-9687-3699-8054-e7e3f695e6db.json b/test/data/enm/study-NWKI-864c1767-bf3b-400e-8c1e-9fee4a997f6f.json
index 86171a2..86171a2 100644
--- a/test/data/enm/study-NWKI-04887adf-9687-3699-8054-e7e3f695e6db.json
+++ b/test/data/enm/study-NWKI-864c1767-bf3b-400e-8c1e-9fee4a997f6f.json
diff --git a/test/data/enm/study-NWKI-5a6518a3-ff8d-374b-a070-92a1addafdd7.json b/test/data/enm/study-NWKI-868e0d65-60b4-4614-85ed-8c2d7e5590cc.json
index 990d938..990d938 100644
--- a/test/data/enm/study-NWKI-5a6518a3-ff8d-374b-a070-92a1addafdd7.json
+++ b/test/data/enm/study-NWKI-868e0d65-60b4-4614-85ed-8c2d7e5590cc.json
diff --git a/test/data/enm/study-NWKI-86f24136-cad3-4ddc-bac0-b0bb2eebe856.json b/test/data/enm/study-NWKI-86f24136-cad3-4ddc-bac0-b0bb2eebe856.json
new file mode 100644
index 0000000..a7800b5
--- /dev/null
+++ b/test/data/enm/study-NWKI-86f24136-cad3-4ddc-bac0-b0bb2eebe856.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-86f24136-cad3-4ddc-bac0-b0bb2eebe856",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7998492c-3902-3cc2-9f92-cdfae53cfc02"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 50
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8744a8f8-25a3-47c6-94d7-498c06c99f4d.json b/test/data/enm/study-NWKI-8744a8f8-25a3-47c6-94d7-498c06c99f4d.json
new file mode 100644
index 0000000..3b190af
--- /dev/null
+++ b/test/data/enm/study-NWKI-8744a8f8-25a3-47c6-94d7-498c06c99f4d.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-8744a8f8-25a3-47c6-94d7-498c06c99f4d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-694f4202-c0ba-3ed9-a0f3-0a5ccba9e9c1.json b/test/data/enm/study-NWKI-875567d3-6661-4f7e-82ff-e95d8dcea8bf.json
index 23feed6..23feed6 100644
--- a/test/data/enm/study-NWKI-694f4202-c0ba-3ed9-a0f3-0a5ccba9e9c1.json
+++ b/test/data/enm/study-NWKI-875567d3-6661-4f7e-82ff-e95d8dcea8bf.json
diff --git a/test/data/enm/study-NWKI-876f5e02-52db-4875-bc48-276f952c83b3.json b/test/data/enm/study-NWKI-876f5e02-52db-4875-bc48-276f952c83b3.json
new file mode 100644
index 0000000..9c7dd84
--- /dev/null
+++ b/test/data/enm/study-NWKI-876f5e02-52db-4875-bc48-276f952c83b3.json
@@ -0,0 +1,52 @@
+{
+  "uuid": "NWKI-876f5e02-52db-4875-bc48-276f952c83b3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-87933ab9-91b3-4290-b570-6b478504bd26.json b/test/data/enm/study-NWKI-87933ab9-91b3-4290-b570-6b478504bd26.json
new file mode 100644
index 0000000..4e23810
--- /dev/null
+++ b/test/data/enm/study-NWKI-87933ab9-91b3-4290-b570-6b478504bd26.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-87933ab9-91b3-4290-b570-6b478504bd26",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-52e8adb0-6aba-3e7f-bc0c-85cb36c394a2.json b/test/data/enm/study-NWKI-879cace7-705a-4cc6-a1ac-db71577547e7.json
index b589dfe..b589dfe 100644
--- a/test/data/enm/study-NWKI-52e8adb0-6aba-3e7f-bc0c-85cb36c394a2.json
+++ b/test/data/enm/study-NWKI-879cace7-705a-4cc6-a1ac-db71577547e7.json
diff --git a/test/data/enm/study-NWKI-87c16072-a28c-4369-947b-434dc7c94927.json b/test/data/enm/study-NWKI-87c16072-a28c-4369-947b-434dc7c94927.json
new file mode 100644
index 0000000..d2aec3c
--- /dev/null
+++ b/test/data/enm/study-NWKI-87c16072-a28c-4369-947b-434dc7c94927.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-87c16072-a28c-4369-947b-434dc7c94927",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Protamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Protamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-884fb0d7-c429-49d6-ba3a-904e1fa119e2.json b/test/data/enm/study-NWKI-884fb0d7-c429-49d6-ba3a-904e1fa119e2.json
new file mode 100644
index 0000000..7968611
--- /dev/null
+++ b/test/data/enm/study-NWKI-884fb0d7-c429-49d6-ba3a-904e1fa119e2.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-884fb0d7-c429-49d6-ba3a-904e1fa119e2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 91
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-88797747-443e-44b0-90a0-ba8ffcf9365a.json b/test/data/enm/study-NWKI-88797747-443e-44b0-90a0-ba8ffcf9365a.json
new file mode 100644
index 0000000..cb9591b
--- /dev/null
+++ b/test/data/enm/study-NWKI-88797747-443e-44b0-90a0-ba8ffcf9365a.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-88797747-443e-44b0-90a0-ba8ffcf9365a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8888d86f-a6b7-4cd4-a7b0-e650efad27da.json b/test/data/enm/study-NWKI-8888d86f-a6b7-4cd4-a7b0-e650efad27da.json
new file mode 100644
index 0000000..491a843
--- /dev/null
+++ b/test/data/enm/study-NWKI-8888d86f-a6b7-4cd4-a7b0-e650efad27da.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-8888d86f-a6b7-4cd4-a7b0-e650efad27da",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a2d5a729-4ed1-3f1b-a5fd-3bd090a48aa5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 190,
+        "errorValue": 9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-88a68961-fb9d-4409-89aa-295d10bf63b2.json b/test/data/enm/study-NWKI-88a68961-fb9d-4409-89aa-295d10bf63b2.json
new file mode 100644
index 0000000..fbb2dd0
--- /dev/null
+++ b/test/data/enm/study-NWKI-88a68961-fb9d-4409-89aa-295d10bf63b2.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-88a68961-fb9d-4409-89aa-295d10bf63b2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-88ebd7b5-2689-4ac1-86cc-b8b790bd5f9a.json b/test/data/enm/study-NWKI-88ebd7b5-2689-4ac1-86cc-b8b790bd5f9a.json
new file mode 100644
index 0000000..15b0a49
--- /dev/null
+++ b/test/data/enm/study-NWKI-88ebd7b5-2689-4ac1-86cc-b8b790bd5f9a.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-88ebd7b5-2689-4ac1-86cc-b8b790bd5f9a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-88eea7d0-463b-4ffb-aeef-8b27912f66a7.json b/test/data/enm/study-NWKI-88eea7d0-463b-4ffb-aeef-8b27912f66a7.json
new file mode 100644
index 0000000..6d121d5
--- /dev/null
+++ b/test/data/enm/study-NWKI-88eea7d0-463b-4ffb-aeef-8b27912f66a7.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-88eea7d0-463b-4ffb-aeef-8b27912f66a7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7a8cde87-8021-3d12-9dfe-f408dfe81a74.json b/test/data/enm/study-NWKI-88f9ff3b-4ff7-4ddd-b0c9-de797a65170a.json
index dccdebf..dccdebf 100644
--- a/test/data/enm/study-NWKI-7a8cde87-8021-3d12-9dfe-f408dfe81a74.json
+++ b/test/data/enm/study-NWKI-88f9ff3b-4ff7-4ddd-b0c9-de797a65170a.json
diff --git a/test/data/enm/study-NWKI-8928ffc5-2b1c-42a8-9534-89ba4d50c54d.json b/test/data/enm/study-NWKI-8928ffc5-2b1c-42a8-9534-89ba4d50c54d.json
new file mode 100644
index 0000000..0f3a14a
--- /dev/null
+++ b/test/data/enm/study-NWKI-8928ffc5-2b1c-42a8-9534-89ba4d50c54d.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-8928ffc5-2b1c-42a8-9534-89ba4d50c54d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-17c74ed1-b289-3ca1-8477-390a588cb28c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f926951f-587c-3206-88c9-bd92614da153.json b/test/data/enm/study-NWKI-8955d52a-7973-44c8-be98-9b43bb1e135b.json
index c805764..c805764 100644
--- a/test/data/enm/study-NWKI-f926951f-587c-3206-88c9-bd92614da153.json
+++ b/test/data/enm/study-NWKI-8955d52a-7973-44c8-be98-9b43bb1e135b.json
diff --git a/test/data/enm/study-NWKI-89883f1b-15a0-4ec6-9b78-095a087de0f1.json b/test/data/enm/study-NWKI-89883f1b-15a0-4ec6-9b78-095a087de0f1.json
new file mode 100644
index 0000000..a673664
--- /dev/null
+++ b/test/data/enm/study-NWKI-89883f1b-15a0-4ec6-9b78-095a087de0f1.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-89883f1b-15a0-4ec6-9b78-095a087de0f1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DGlutamicAcid"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Glutamic_Acid"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "C(CC(=O)O)C(C(=O)O)N"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Glutamic_Acid"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-85b50517-fdea-3aa6-abbd-dd506393aaa5.json b/test/data/enm/study-NWKI-89c9d590-26e4-4f2d-8439-4bf6c76f7558.json
index a66fcd9..a66fcd9 100644
--- a/test/data/enm/study-NWKI-85b50517-fdea-3aa6-abbd-dd506393aaa5.json
+++ b/test/data/enm/study-NWKI-89c9d590-26e4-4f2d-8439-4bf6c76f7558.json
diff --git a/test/data/enm/study-NWKI-89e3d898-31aa-4719-8579-7c93dde6274e.json b/test/data/enm/study-NWKI-89e3d898-31aa-4719-8579-7c93dde6274e.json
new file mode 100644
index 0000000..cd18866
--- /dev/null
+++ b/test/data/enm/study-NWKI-89e3d898-31aa-4719-8579-7c93dde6274e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-89e3d898-31aa-4719-8579-7c93dde6274e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8196e92b-c46d-3c14-9410-e87992810710"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -3.77
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8a80359b-2827-4800-a2ca-fcb5571c0300.json b/test/data/enm/study-NWKI-8a80359b-2827-4800-a2ca-fcb5571c0300.json
new file mode 100644
index 0000000..cc9dbe6
--- /dev/null
+++ b/test/data/enm/study-NWKI-8a80359b-2827-4800-a2ca-fcb5571c0300.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-8a80359b-2827-4800-a2ca-fcb5571c0300",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-47d254de-8242-3374-9ed3-085227d473cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -4.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-845bf8fc-788d-38f2-be58-030f27c0d337.json b/test/data/enm/study-NWKI-8b3ff259-2009-44f5-9480-f00cb9ae69c8.json
index 089520d..089520d 100644
--- a/test/data/enm/study-NWKI-845bf8fc-788d-38f2-be58-030f27c0d337.json
+++ b/test/data/enm/study-NWKI-8b3ff259-2009-44f5-9480-f00cb9ae69c8.json
diff --git a/test/data/enm/study-NWKI-8b87c7de-7545-494f-a082-c16729a18b4f.json b/test/data/enm/study-NWKI-8b87c7de-7545-494f-a082-c16729a18b4f.json
new file mode 100644
index 0000000..c9f3c17
--- /dev/null
+++ b/test/data/enm/study-NWKI-8b87c7de-7545-494f-a082-c16729a18b4f.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-8b87c7de-7545-494f-a082-c16729a18b4f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0455b6e1-5203-37bb-a98b-20460acceda1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.64
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8b8dfa72-0284-415c-b50c-22b3a8a9b839.json b/test/data/enm/study-NWKI-8b8dfa72-0284-415c-b50c-22b3a8a9b839.json
new file mode 100644
index 0000000..a2ed076
--- /dev/null
+++ b/test/data/enm/study-NWKI-8b8dfa72-0284-415c-b50c-22b3a8a9b839.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-8b8dfa72-0284-415c-b50c-22b3a8a9b839",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "PBS"
+        },
+        "pH": {
+          "loValue": 7.15
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8bb3beb0-5e80-4bfe-85ac-99b7aceebcad.json b/test/data/enm/study-NWKI-8bb3beb0-5e80-4bfe-85ac-99b7aceebcad.json
new file mode 100644
index 0000000..4d6133e
--- /dev/null
+++ b/test/data/enm/study-NWKI-8bb3beb0-5e80-4bfe-85ac-99b7aceebcad.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-8bb3beb0-5e80-4bfe-85ac-99b7aceebcad",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae0be5b8-266b-3b6a-825d-55f14b51cc99"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8bbc6716-d975-4f0c-afae-60dab49a06cc.json b/test/data/enm/study-NWKI-8bbc6716-d975-4f0c-afae-60dab49a06cc.json
new file mode 100644
index 0000000..53846d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-8bbc6716-d975-4f0c-afae-60dab49a06cc.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-8bbc6716-d975-4f0c-afae-60dab49a06cc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8c25ade1-6431-4040-a52d-cb234978487e.json b/test/data/enm/study-NWKI-8c25ade1-6431-4040-a52d-cb234978487e.json
new file mode 100644
index 0000000..aee76c8
--- /dev/null
+++ b/test/data/enm/study-NWKI-8c25ade1-6431-4040-a52d-cb234978487e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-8c25ade1-6431-4040-a52d-cb234978487e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-afc33b0f-f6ce-3c1b-8a3d-cede13515323"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -7.15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8d2443b8-7a23-4c59-988b-fd99323e4e37.json b/test/data/enm/study-NWKI-8d2443b8-7a23-4c59-988b-fd99323e4e37.json
new file mode 100644
index 0000000..891b834
--- /dev/null
+++ b/test/data/enm/study-NWKI-8d2443b8-7a23-4c59-988b-fd99323e4e37.json
@@ -0,0 +1,54 @@
+{
+  "uuid": "NWKI-8d2443b8-7a23-4c59-988b-fd99323e4e37",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ea48c37d-840a-30d2-9740-1198a7e2c3b6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_BOILING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000257",
+      "title": "4.3 Boiling point"
+    },
+    "endpoint": "Boiling Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Boiling point",
+      "conditions": {
+        "Atm. Pressure": null,
+        "Decomposition": null
+      },
+      "result": {
+        "unit": "Celsius",
+        "loValue": 2230
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8d772138-7e9c-4e23-a9ad-844af1713aa0.json b/test/data/enm/study-NWKI-8d772138-7e9c-4e23-a9ad-844af1713aa0.json
new file mode 100644
index 0000000..7e54940
--- /dev/null
+++ b/test/data/enm/study-NWKI-8d772138-7e9c-4e23-a9ad-844af1713aa0.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-8d772138-7e9c-4e23-a9ad-844af1713aa0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8db075a8-2314-4897-8bd6-c0afa961884e.json b/test/data/enm/study-NWKI-8db075a8-2314-4897-8bd6-c0afa961884e.json
new file mode 100644
index 0000000..efb4054
--- /dev/null
+++ b/test/data/enm/study-NWKI-8db075a8-2314-4897-8bd6-c0afa961884e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-8db075a8-2314-4897-8bd6-c0afa961884e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7998492c-3902-3cc2-9f92-cdfae53cfc02"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 10,
+          "unit": "m"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f40bfb8a-1280-35a2-866c-42b5a3ce13e7.json b/test/data/enm/study-NWKI-8ddf2a3a-2988-4255-8188-0c48855e7f58.json
index 6dd5838..6dd5838 100644
--- a/test/data/enm/study-NWKI-f40bfb8a-1280-35a2-866c-42b5a3ce13e7.json
+++ b/test/data/enm/study-NWKI-8ddf2a3a-2988-4255-8188-0c48855e7f58.json
diff --git a/test/data/enm/study-NWKI-8dfaf1c8-d49d-4280-ab04-6f55ce644942.json b/test/data/enm/study-NWKI-8dfaf1c8-d49d-4280-ab04-6f55ce644942.json
new file mode 100644
index 0000000..27ff0ca
--- /dev/null
+++ b/test/data/enm/study-NWKI-8dfaf1c8-d49d-4280-ab04-6f55ce644942.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-8dfaf1c8-d49d-4280-ab04-6f55ce644942",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8e70a872-3806-4bf9-a8c9-ed59fbd3ca45.json b/test/data/enm/study-NWKI-8e70a872-3806-4bf9-a8c9-ed59fbd3ca45.json
new file mode 100644
index 0000000..2155a13
--- /dev/null
+++ b/test/data/enm/study-NWKI-8e70a872-3806-4bf9-a8c9-ed59fbd3ca45.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-8e70a872-3806-4bf9-a8c9-ed59fbd3ca45",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5adec23a-ab6a-350e-baec-cd088a4667d5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -16.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8e945981-32ca-4c56-b481-45f7b8c630bd.json b/test/data/enm/study-NWKI-8e945981-32ca-4c56-b481-45f7b8c630bd.json
new file mode 100644
index 0000000..46db193
--- /dev/null
+++ b/test/data/enm/study-NWKI-8e945981-32ca-4c56-b481-45f7b8c630bd.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-8e945981-32ca-4c56-b481-45f7b8c630bd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 3.12,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8ea9b598-a5d6-472a-b449-53e48222d54d.json b/test/data/enm/study-NWKI-8ea9b598-a5d6-472a-b449-53e48222d54d.json
new file mode 100644
index 0000000..4d5f285
--- /dev/null
+++ b/test/data/enm/study-NWKI-8ea9b598-a5d6-472a-b449-53e48222d54d.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-8ea9b598-a5d6-472a-b449-53e48222d54d",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-863267cf-faf0-349b-8046-6074d2e718b5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.soilbio.2013.01.016",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8090df08-f0f9-3c2f-8769-b51c2adaffc1.json b/test/data/enm/study-NWKI-8f580200-09f2-41bb-b4e7-c374edca92fb.json
index a938cf9..a938cf9 100644
--- a/test/data/enm/study-NWKI-8090df08-f0f9-3c2f-8769-b51c2adaffc1.json
+++ b/test/data/enm/study-NWKI-8f580200-09f2-41bb-b4e7-c374edca92fb.json
diff --git a/test/data/enm/study-NWKI-90015aaf-7a19-4778-8890-4600221b8e7c.json b/test/data/enm/study-NWKI-90015aaf-7a19-4778-8890-4600221b8e7c.json
new file mode 100644
index 0000000..f1bc153
--- /dev/null
+++ b/test/data/enm/study-NWKI-90015aaf-7a19-4778-8890-4600221b8e7c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-90015aaf-7a19-4778-8890-4600221b8e7c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-90087566-2c17-4376-8083-810274cbf918.json b/test/data/enm/study-NWKI-90087566-2c17-4376-8083-810274cbf918.json
new file mode 100644
index 0000000..ade4281
--- /dev/null
+++ b/test/data/enm/study-NWKI-90087566-2c17-4376-8083-810274cbf918.json
@@ -0,0 +1,52 @@
+{
+  "uuid": "NWKI-90087566-2c17-4376-8083-810274cbf918",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-905cb971-3ccb-4db3-ae56-fc94178df572.json b/test/data/enm/study-NWKI-905cb971-3ccb-4db3-ae56-fc94178df572.json
new file mode 100644
index 0000000..a38ae80
--- /dev/null
+++ b/test/data/enm/study-NWKI-905cb971-3ccb-4db3-ae56-fc94178df572.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-905cb971-3ccb-4db3-ae56-fc94178df572",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ede0d5b5-191a-3003-ac70-a97397ea7bb2"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 75,
+        "errorValue": 6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-90819c5d-2b87-424d-9ded-af4f9f46c16f.json b/test/data/enm/study-NWKI-90819c5d-2b87-424d-9ded-af4f9f46c16f.json
new file mode 100644
index 0000000..b124ab9
--- /dev/null
+++ b/test/data/enm/study-NWKI-90819c5d-2b87-424d-9ded-af4f9f46c16f.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-90819c5d-2b87-424d-9ded-af4f9f46c16f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a0a7a86-fd00-3835-9795-a4da7d9d1544"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY7"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cy7"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cy7"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8f43d9fb-94ae-3d2b-8bb6-e8eb060e3b1b.json b/test/data/enm/study-NWKI-90bd6e98-90e7-4dd7-88cf-41608544e1fe.json
index de5695d..de5695d 100644
--- a/test/data/enm/study-NWKI-8f43d9fb-94ae-3d2b-8bb6-e8eb060e3b1b.json
+++ b/test/data/enm/study-NWKI-90bd6e98-90e7-4dd7-88cf-41608544e1fe.json
diff --git a/test/data/enm/study-NWKI-91102148-62b9-4896-a4a3-f379046ea916.json b/test/data/enm/study-NWKI-91102148-62b9-4896-a4a3-f379046ea916.json
new file mode 100644
index 0000000..0e5d002
--- /dev/null
+++ b/test/data/enm/study-NWKI-91102148-62b9-4896-a4a3-f379046ea916.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-91102148-62b9-4896-a4a3-f379046ea916",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0b16e14c-47ab-3075-afc4-0713d06aa54c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-913c2e41-919b-47e9-ba92-572ed92cdfe1.json b/test/data/enm/study-NWKI-913c2e41-919b-47e9-ba92-572ed92cdfe1.json
new file mode 100644
index 0000000..becfbee
--- /dev/null
+++ b/test/data/enm/study-NWKI-913c2e41-919b-47e9-ba92-572ed92cdfe1.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-913c2e41-919b-47e9-ba92-572ed92cdfe1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-994226ce-df01-3717-b45d-376f645a8d47"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 3.14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ab2d4bdd-7a72-3e26-8552-5bb6027896bb.json b/test/data/enm/study-NWKI-92592b26-8cd8-49ed-b336-c4a26da733f9.json
index 4809823..4809823 100644
--- a/test/data/enm/study-NWKI-ab2d4bdd-7a72-3e26-8552-5bb6027896bb.json
+++ b/test/data/enm/study-NWKI-92592b26-8cd8-49ed-b336-c4a26da733f9.json
diff --git a/test/data/enm/study-NWKI-928470d1-bec3-4480-a7f7-65e67c7e5c92.json b/test/data/enm/study-NWKI-928470d1-bec3-4480-a7f7-65e67c7e5c92.json
new file mode 100644
index 0000000..d029259
--- /dev/null
+++ b/test/data/enm/study-NWKI-928470d1-bec3-4480-a7f7-65e67c7e5c92.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-928470d1-bec3-4480-a7f7-65e67c7e5c92",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9336a9a1-50e1-4b0c-ac57-c4e25c1b6370.json b/test/data/enm/study-NWKI-9336a9a1-50e1-4b0c-ac57-c4e25c1b6370.json
new file mode 100644
index 0000000..4b60f31
--- /dev/null
+++ b/test/data/enm/study-NWKI-9336a9a1-50e1-4b0c-ac57-c4e25c1b6370.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-9336a9a1-50e1-4b0c-ac57-c4e25c1b6370",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9142c528-4a84-3566-b678-dc1eef7d22fe"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 186
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-933acfd4-a3d4-4e99-90c6-531e2f9e2356.json b/test/data/enm/study-NWKI-933acfd4-a3d4-4e99-90c6-531e2f9e2356.json
new file mode 100644
index 0000000..e186ccb
--- /dev/null
+++ b/test/data/enm/study-NWKI-933acfd4-a3d4-4e99-90c6-531e2f9e2356.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-933acfd4-a3d4-4e99-90c6-531e2f9e2356",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a33b26f0-2fc7-3aa1-9dd6-27380f725bfe.json b/test/data/enm/study-NWKI-934c5c1a-86df-4901-9e9c-bf4a2ca93465.json
index 25c7d2a..25c7d2a 100644
--- a/test/data/enm/study-NWKI-a33b26f0-2fc7-3aa1-9dd6-27380f725bfe.json
+++ b/test/data/enm/study-NWKI-934c5c1a-86df-4901-9e9c-bf4a2ca93465.json
diff --git a/test/data/enm/study-NWKI-245fc9be-5928-354e-8fd1-ae88663923f1.json b/test/data/enm/study-NWKI-93603f88-ae1a-4819-843d-c38db4ce16c1.json
index 699edd8..699edd8 100644
--- a/test/data/enm/study-NWKI-245fc9be-5928-354e-8fd1-ae88663923f1.json
+++ b/test/data/enm/study-NWKI-93603f88-ae1a-4819-843d-c38db4ce16c1.json
diff --git a/test/data/enm/study-NWKI-93734b2b-c7e0-4cfc-936b-bd0aa4f5f31e.json b/test/data/enm/study-NWKI-93734b2b-c7e0-4cfc-936b-bd0aa4f5f31e.json
new file mode 100644
index 0000000..cb953d8
--- /dev/null
+++ b/test/data/enm/study-NWKI-93734b2b-c7e0-4cfc-936b-bd0aa4f5f31e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-93734b2b-c7e0-4cfc-936b-bd0aa4f5f31e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fd891814-04d2-30bc-a0b6-cc3149bf75ec"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-93a75471-e455-444d-a639-c69931789c11.json b/test/data/enm/study-NWKI-93a75471-e455-444d-a639-c69931789c11.json
new file mode 100644
index 0000000..98197ae
--- /dev/null
+++ b/test/data/enm/study-NWKI-93a75471-e455-444d-a639-c69931789c11.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-93a75471-e455-444d-a639-c69931789c11",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-18aebb90-aacb-3e15-b516-4d3683e9c27b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-93d38c82-285c-4800-831e-0e4ccdb61c13.json b/test/data/enm/study-NWKI-93d38c82-285c-4800-831e-0e4ccdb61c13.json
new file mode 100644
index 0000000..53679f1
--- /dev/null
+++ b/test/data/enm/study-NWKI-93d38c82-285c-4800-831e-0e4ccdb61c13.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-93d38c82-285c-4800-831e-0e4ccdb61c13",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-941a3ff6-4f05-493d-ad80-2ec04ab35035.json b/test/data/enm/study-NWKI-941a3ff6-4f05-493d-ad80-2ec04ab35035.json
new file mode 100644
index 0000000..6ce8d37
--- /dev/null
+++ b/test/data/enm/study-NWKI-941a3ff6-4f05-493d-ad80-2ec04ab35035.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-941a3ff6-4f05-493d-ad80-2ec04ab35035",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-94f8825d-c863-4642-9a16-cc7b64ed4253.json b/test/data/enm/study-NWKI-94f8825d-c863-4642-9a16-cc7b64ed4253.json
new file mode 100644
index 0000000..d5c0f62
--- /dev/null
+++ b/test/data/enm/study-NWKI-94f8825d-c863-4642-9a16-cc7b64ed4253.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-94f8825d-c863-4642-9a16-cc7b64ed4253",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-94fd6054-3823-4ca0-b190-a54a3c38cc49.json b/test/data/enm/study-NWKI-94fd6054-3823-4ca0-b190-a54a3c38cc49.json
new file mode 100644
index 0000000..94b94cf
--- /dev/null
+++ b/test/data/enm/study-NWKI-94fd6054-3823-4ca0-b190-a54a3c38cc49.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-94fd6054-3823-4ca0-b190-a54a3c38cc49",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7181cc57-548a-3117-b59a-bfff2933c0b5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390.2015.1017022",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Diameter",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Diameter",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 180
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3a3b2bcd-8284-37dc-a619-56ffbd7ebd68.json b/test/data/enm/study-NWKI-950a3601-d327-49a5-aaa2-f30b2e8f3341.json
index fd89d74..fd89d74 100644
--- a/test/data/enm/study-NWKI-3a3b2bcd-8284-37dc-a619-56ffbd7ebd68.json
+++ b/test/data/enm/study-NWKI-950a3601-d327-49a5-aaa2-f30b2e8f3341.json
diff --git a/test/data/enm/study-NWKI-95983ce9-209e-472b-b9dd-3cb5ef932993.json b/test/data/enm/study-NWKI-95983ce9-209e-472b-b9dd-3cb5ef932993.json
new file mode 100644
index 0000000..627e8f8
--- /dev/null
+++ b/test/data/enm/study-NWKI-95983ce9-209e-472b-b9dd-3cb5ef932993.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-95983ce9-209e-472b-b9dd-3cb5ef932993",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "cMEM"
+        },
+        "pH": {
+          "loValue": 7.26
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -19
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-95c1843c-939a-4733-93f9-ec825c192e00.json b/test/data/enm/study-NWKI-95c1843c-939a-4733-93f9-ec825c192e00.json
new file mode 100644
index 0000000..71d13ff
--- /dev/null
+++ b/test/data/enm/study-NWKI-95c1843c-939a-4733-93f9-ec825c192e00.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-95c1843c-939a-4733-93f9-ec825c192e00",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-95c4fa9c-3b2f-4864-8512-8bac993fa381.json b/test/data/enm/study-NWKI-95c4fa9c-3b2f-4864-8512-8bac993fa381.json
new file mode 100644
index 0000000..5b22bac
--- /dev/null
+++ b/test/data/enm/study-NWKI-95c4fa9c-3b2f-4864-8512-8bac993fa381.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-95c4fa9c-3b2f-4864-8512-8bac993fa381",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82c12809-d7af-3061-a531-1db744c521f0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 0.766
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-bbce341e-3e4d-37f9-a891-5462ada32180.json b/test/data/enm/study-NWKI-96076900-e780-4903-b87b-e239a69a3691.json
index 86d164f..86d164f 100644
--- a/test/data/enm/study-NWKI-bbce341e-3e4d-37f9-a891-5462ada32180.json
+++ b/test/data/enm/study-NWKI-96076900-e780-4903-b87b-e239a69a3691.json
diff --git a/test/data/enm/study-NWKI-961c71f1-8e7a-4590-aa48-4562e0561b3f.json b/test/data/enm/study-NWKI-961c71f1-8e7a-4590-aa48-4562e0561b3f.json
new file mode 100644
index 0000000..1d0a377
--- /dev/null
+++ b/test/data/enm/study-NWKI-961c71f1-8e7a-4590-aa48-4562e0561b3f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-961c71f1-8e7a-4590-aa48-4562e0561b3f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 250,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-eccbd5c0-7cdb-3dc5-b9e3-8a7e17b3915a.json b/test/data/enm/study-NWKI-96837237-0aba-461d-be45-d3ddab98b478.json
index 20eaad8..20eaad8 100644
--- a/test/data/enm/study-NWKI-eccbd5c0-7cdb-3dc5-b9e3-8a7e17b3915a.json
+++ b/test/data/enm/study-NWKI-96837237-0aba-461d-be45-d3ddab98b478.json
diff --git a/test/data/enm/study-NWKI-968d1718-be47-4ee5-a2df-f5da138e2b81.json b/test/data/enm/study-NWKI-968d1718-be47-4ee5-a2df-f5da138e2b81.json
new file mode 100644
index 0000000..6dd5ab6
--- /dev/null
+++ b/test/data/enm/study-NWKI-968d1718-be47-4ee5-a2df-f5da138e2b81.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-968d1718-be47-4ee5-a2df-f5da138e2b81",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-47d254de-8242-3374-9ed3-085227d473cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PEG"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PEG"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-96a0b84b-a6a7-4501-adc9-54c01507d896.json b/test/data/enm/study-NWKI-96a0b84b-a6a7-4501-adc9-54c01507d896.json
new file mode 100644
index 0000000..a0e52fd
--- /dev/null
+++ b/test/data/enm/study-NWKI-96a0b84b-a6a7-4501-adc9-54c01507d896.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-96a0b84b-a6a7-4501-adc9-54c01507d896",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-96b1d137-5f38-484c-9d0b-62e62dcf98ac.json b/test/data/enm/study-NWKI-96b1d137-5f38-484c-9d0b-62e62dcf98ac.json
new file mode 100644
index 0000000..6aa2c66
--- /dev/null
+++ b/test/data/enm/study-NWKI-96b1d137-5f38-484c-9d0b-62e62dcf98ac.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-96b1d137-5f38-484c-9d0b-62e62dcf98ac",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-47d254de-8242-3374-9ed3-085227d473cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-97080abf-0df0-4681-a038-af98d3e0fec5.json b/test/data/enm/study-NWKI-97080abf-0df0-4681-a038-af98d3e0fec5.json
new file mode 100644
index 0000000..4a889dc
--- /dev/null
+++ b/test/data/enm/study-NWKI-97080abf-0df0-4681-a038-af98d3e0fec5.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-97080abf-0df0-4681-a038-af98d3e0fec5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9729ff94-c90e-4b2a-bc4a-6b45455ca4a2.json b/test/data/enm/study-NWKI-9729ff94-c90e-4b2a-bc4a-6b45455ca4a2.json
new file mode 100644
index 0000000..3c67836
--- /dev/null
+++ b/test/data/enm/study-NWKI-9729ff94-c90e-4b2a-bc4a-6b45455ca4a2.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-9729ff94-c90e-4b2a-bc4a-6b45455ca4a2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-7998492c-3902-3cc2-9f92-cdfae53cfc02"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 1,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-975f2041-3c03-47a0-8dea-cdcf547288e4.json b/test/data/enm/study-NWKI-975f2041-3c03-47a0-8dea-cdcf547288e4.json
new file mode 100644
index 0000000..32898b9
--- /dev/null
+++ b/test/data/enm/study-NWKI-975f2041-3c03-47a0-8dea-cdcf547288e4.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-975f2041-3c03-47a0-8dea-cdcf547288e4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3fb9be70-8c15-3b78-94e7-5c3c88799818"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3c8c8bb2-416f-3bff-862a-8433538cd4c5.json b/test/data/enm/study-NWKI-97d7329d-ede3-47f2-bae7-88072c73ac5e.json
index 30840dc..30840dc 100644
--- a/test/data/enm/study-NWKI-3c8c8bb2-416f-3bff-862a-8433538cd4c5.json
+++ b/test/data/enm/study-NWKI-97d7329d-ede3-47f2-bae7-88072c73ac5e.json
diff --git a/test/data/enm/study-NWKI-97f54c1c-0ec7-4273-a92d-245c3efa4b33.json b/test/data/enm/study-NWKI-97f54c1c-0ec7-4273-a92d-245c3efa4b33.json
new file mode 100644
index 0000000..b701ff8
--- /dev/null
+++ b/test/data/enm/study-NWKI-97f54c1c-0ec7-4273-a92d-245c3efa4b33.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-97f54c1c-0ec7-4273-a92d-245c3efa4b33",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3fb9be70-8c15-3b78-94e7-5c3c88799818"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9833b4a9-d932-4d79-846c-1a26b3659885.json b/test/data/enm/study-NWKI-9833b4a9-d932-4d79-846c-1a26b3659885.json
new file mode 100644
index 0000000..787cc19
--- /dev/null
+++ b/test/data/enm/study-NWKI-9833b4a9-d932-4d79-846c-1a26b3659885.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-9833b4a9-d932-4d79-846c-1a26b3659885",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e866549e-38cf-3b98-a0b1-a483e275d261"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0b663f5f-1386-3cc5-ba6b-9ff2bb39d4ff.json b/test/data/enm/study-NWKI-98d15c68-20d6-4106-a239-99dcdb3d6c9c.json
index 7ad2811..7ad2811 100644
--- a/test/data/enm/study-NWKI-0b663f5f-1386-3cc5-ba6b-9ff2bb39d4ff.json
+++ b/test/data/enm/study-NWKI-98d15c68-20d6-4106-a239-99dcdb3d6c9c.json
diff --git a/test/data/enm/study-NWKI-98ef698c-7c3a-4e90-b8d2-09f1be340f64.json b/test/data/enm/study-NWKI-98ef698c-7c3a-4e90-b8d2-09f1be340f64.json
new file mode 100644
index 0000000..4888a77
--- /dev/null
+++ b/test/data/enm/study-NWKI-98ef698c-7c3a-4e90-b8d2-09f1be340f64.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "NWKI-98ef698c-7c3a-4e90-b8d2-09f1be340f64",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f1cc0abb-2905-3699-be62-b238a21e6bad"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": -35,
+        "upQualifier": "<=",
+        "upValue": 48
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-82665bf4-5c5e-325a-a7ee-44ff1c6045b7.json b/test/data/enm/study-NWKI-990dfff9-347f-4340-a32d-f4c62938677f.json
index 6ace092..6ace092 100644
--- a/test/data/enm/study-NWKI-82665bf4-5c5e-325a-a7ee-44ff1c6045b7.json
+++ b/test/data/enm/study-NWKI-990dfff9-347f-4340-a32d-f4c62938677f.json
diff --git a/test/data/enm/study-NWKI-998b320c-18fa-4dc8-9be8-a5644f215528.json b/test/data/enm/study-NWKI-998b320c-18fa-4dc8-9be8-a5644f215528.json
new file mode 100644
index 0000000..1dc7c03
--- /dev/null
+++ b/test/data/enm/study-NWKI-998b320c-18fa-4dc8-9be8-a5644f215528.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-998b320c-18fa-4dc8-9be8-a5644f215528",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-895a506b-c331-3576-bf9e-cbcde5822c11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "cMEM"
+        },
+        "pH": {
+          "loValue": 7.21
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9a2cbb96-951d-4d49-b8cc-2bf8e080f558.json b/test/data/enm/study-NWKI-9a2cbb96-951d-4d49-b8cc-2bf8e080f558.json
new file mode 100644
index 0000000..c18daab
--- /dev/null
+++ b/test/data/enm/study-NWKI-9a2cbb96-951d-4d49-b8cc-2bf8e080f558.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-9a2cbb96-951d-4d49-b8cc-2bf8e080f558",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9a5a6b0a-6e10-4d89-b987-6984da13de1c.json b/test/data/enm/study-NWKI-9a5a6b0a-6e10-4d89-b987-6984da13de1c.json
new file mode 100644
index 0000000..07c1aab
--- /dev/null
+++ b/test/data/enm/study-NWKI-9a5a6b0a-6e10-4d89-b987-6984da13de1c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-9a5a6b0a-6e10-4d89-b987-6984da13de1c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-52edeff5-900d-3f5a-86ba-550e9b368239"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9a5fcbe2-ff72-4d68-92e5-266296adfb3a.json b/test/data/enm/study-NWKI-9a5fcbe2-ff72-4d68-92e5-266296adfb3a.json
new file mode 100644
index 0000000..01ac79d
--- /dev/null
+++ b/test/data/enm/study-NWKI-9a5fcbe2-ff72-4d68-92e5-266296adfb3a.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-9a5fcbe2-ff72-4d68-92e5-266296adfb3a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -53
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9a7836ea-becd-42e4-ab1f-8e90b83a7e2c.json b/test/data/enm/study-NWKI-9a7836ea-becd-42e4-ab1f-8e90b83a7e2c.json
new file mode 100644
index 0000000..97bcc68
--- /dev/null
+++ b/test/data/enm/study-NWKI-9a7836ea-becd-42e4-ab1f-8e90b83a7e2c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-9a7836ea-becd-42e4-ab1f-8e90b83a7e2c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9a41ca03-303d-3116-89fb-2335cc1bad2d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Average Length",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Average Length",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "μm",
+        "loValue": 1.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4f91db77-4cd0-3482-b989-571d2a9a4228.json b/test/data/enm/study-NWKI-9ae54803-8808-4fe9-8036-2539cf8d2e0e.json
index 8934997..8934997 100644
--- a/test/data/enm/study-NWKI-4f91db77-4cd0-3482-b989-571d2a9a4228.json
+++ b/test/data/enm/study-NWKI-9ae54803-8808-4fe9-8036-2539cf8d2e0e.json
diff --git a/test/data/enm/study-NWKI-9b836306-69bf-4950-8367-fb3b78c80a75.json b/test/data/enm/study-NWKI-9b836306-69bf-4950-8367-fb3b78c80a75.json
new file mode 100644
index 0000000..7ef9d5b
--- /dev/null
+++ b/test/data/enm/study-NWKI-9b836306-69bf-4950-8367-fb3b78c80a75.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-9b836306-69bf-4950-8367-fb3b78c80a75",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9baea477-0a08-49d4-aa31-5a4b6fc7fd35.json b/test/data/enm/study-NWKI-9baea477-0a08-49d4-aa31-5a4b6fc7fd35.json
new file mode 100644
index 0000000..2bd5b13
--- /dev/null
+++ b/test/data/enm/study-NWKI-9baea477-0a08-49d4-aa31-5a4b6fc7fd35.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-9baea477-0a08-49d4-aa31-5a4b6fc7fd35",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-80364e0e-be06-3645-a3ae-880ae0edddef"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30.5,
+        "errorValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9bc460f1-dc07-4f51-9b67-5e59b51cfd4e.json b/test/data/enm/study-NWKI-9bc460f1-dc07-4f51-9b67-5e59b51cfd4e.json
new file mode 100644
index 0000000..0314694
--- /dev/null
+++ b/test/data/enm/study-NWKI-9bc460f1-dc07-4f51-9b67-5e59b51cfd4e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-9bc460f1-dc07-4f51-9b67-5e59b51cfd4e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9bd3843d-1379-49b1-a22b-1aa6fea3b982.json b/test/data/enm/study-NWKI-9bd3843d-1379-49b1-a22b-1aa6fea3b982.json
new file mode 100644
index 0000000..997a4d7
--- /dev/null
+++ b/test/data/enm/study-NWKI-9bd3843d-1379-49b1-a22b-1aa6fea3b982.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-9bd3843d-1379-49b1-a22b-1aa6fea3b982",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 500,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9cba9eb2-7783-442d-a439-a769095f2a23.json b/test/data/enm/study-NWKI-9cba9eb2-7783-442d-a439-a769095f2a23.json
new file mode 100644
index 0000000..26dd9ee
--- /dev/null
+++ b/test/data/enm/study-NWKI-9cba9eb2-7783-442d-a439-a769095f2a23.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-9cba9eb2-7783-442d-a439-a769095f2a23",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5454d5cb-1033-3d6f-a31e-038752525533"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 8,
+        "upQualifier": "<=",
+        "upValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9d557d25-bc4f-4eb4-bf94-4c45d94ee256.json b/test/data/enm/study-NWKI-9d557d25-bc4f-4eb4-bf94-4c45d94ee256.json
new file mode 100644
index 0000000..df0c4ea
--- /dev/null
+++ b/test/data/enm/study-NWKI-9d557d25-bc4f-4eb4-bf94-4c45d94ee256.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-9d557d25-bc4f-4eb4-bf94-4c45d94ee256",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 100
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c2ab6def-8305-3b78-958a-4657b3363e11.json b/test/data/enm/study-NWKI-9d6b99fd-4b45-4711-8ec3-a69204d695a7.json
index 5509d0e..5509d0e 100644
--- a/test/data/enm/study-NWKI-c2ab6def-8305-3b78-958a-4657b3363e11.json
+++ b/test/data/enm/study-NWKI-9d6b99fd-4b45-4711-8ec3-a69204d695a7.json
diff --git a/test/data/enm/study-NWKI-9d93f359-8aba-4e46-9ad1-2976386169a0.json b/test/data/enm/study-NWKI-9d93f359-8aba-4e46-9ad1-2976386169a0.json
new file mode 100644
index 0000000..fc249ae
--- /dev/null
+++ b/test/data/enm/study-NWKI-9d93f359-8aba-4e46-9ad1-2976386169a0.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-9d93f359-8aba-4e46-9ad1-2976386169a0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9e3a1375-4b1b-4380-9394-cb169871a210.json b/test/data/enm/study-NWKI-9e3a1375-4b1b-4380-9394-cb169871a210.json
new file mode 100644
index 0000000..d4c094a
--- /dev/null
+++ b/test/data/enm/study-NWKI-9e3a1375-4b1b-4380-9394-cb169871a210.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-9e3a1375-4b1b-4380-9394-cb169871a210",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c8d9772c-e50e-3c71-986c-e45692150d71"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -12
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e476955f-97bd-3e4c-8bef-03f56fe1b15b.json b/test/data/enm/study-NWKI-9f29113f-574a-4ebb-bf4c-bc805d2ed845.json
index c80405e..c80405e 100644
--- a/test/data/enm/study-NWKI-e476955f-97bd-3e4c-8bef-03f56fe1b15b.json
+++ b/test/data/enm/study-NWKI-9f29113f-574a-4ebb-bf4c-bc805d2ed845.json
diff --git a/test/data/enm/study-NWKI-994226ce-df01-3717-b45d-376f645a8d47.json b/test/data/enm/study-NWKI-9f39a0b9-0fc2-41a2-b130-fca0712881ea.json
index 048295e..048295e 100644
--- a/test/data/enm/study-NWKI-994226ce-df01-3717-b45d-376f645a8d47.json
+++ b/test/data/enm/study-NWKI-9f39a0b9-0fc2-41a2-b130-fca0712881ea.json
diff --git a/test/data/enm/study-NWKI-4551e0f7-e515-3cdb-a099-c2b99b04883d.json b/test/data/enm/study-NWKI-9f4fcd1f-7ab6-4993-9092-f2a266d44bcd.json
index 1f76861..1f76861 100644
--- a/test/data/enm/study-NWKI-4551e0f7-e515-3cdb-a099-c2b99b04883d.json
+++ b/test/data/enm/study-NWKI-9f4fcd1f-7ab6-4993-9092-f2a266d44bcd.json
diff --git a/test/data/enm/study-NWKI-9f50cfff-1264-4196-8cf6-df7e0ea4e3f3.json b/test/data/enm/study-NWKI-9f50cfff-1264-4196-8cf6-df7e0ea4e3f3.json
new file mode 100644
index 0000000..43b22b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-9f50cfff-1264-4196-8cf6-df7e0ea4e3f3.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-9f50cfff-1264-4196-8cf6-df7e0ea4e3f3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5adec23a-ab6a-350e-baec-cd088a4667d5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "CdSe"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "CdSe"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH-2DAmphPolymer"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amphiphillic_Polymer"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amphiphillic_Polymer"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a0041084-f829-4ebd-8708-f0ab1fc548fd.json b/test/data/enm/study-NWKI-a0041084-f829-4ebd-8708-f0ab1fc548fd.json
new file mode 100644
index 0000000..29dd43f
--- /dev/null
+++ b/test/data/enm/study-NWKI-a0041084-f829-4ebd-8708-f0ab1fc548fd.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-a0041084-f829-4ebd-8708-f0ab1fc548fd",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DAminoSPARK680IVM"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a0202f3b-8e81-4aac-b85c-b4a9ee597300.json b/test/data/enm/study-NWKI-a0202f3b-8e81-4aac-b85c-b4a9ee597300.json
new file mode 100644
index 0000000..fc81e0d
--- /dev/null
+++ b/test/data/enm/study-NWKI-a0202f3b-8e81-4aac-b85c-b4a9ee597300.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-a0202f3b-8e81-4aac-b85c-b4a9ee597300",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5f88a526-3e3f-3da5-8082-8d1da0cdfefa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 150
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a05efe4f-e78d-4d0d-8d5b-8c2a0f123326.json b/test/data/enm/study-NWKI-a05efe4f-e78d-4d0d-8d5b-8c2a0f123326.json
new file mode 100644
index 0000000..8d2f8dc
--- /dev/null
+++ b/test/data/enm/study-NWKI-a05efe4f-e78d-4d0d-8d5b-8c2a0f123326.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-a05efe4f-e78d-4d0d-8d5b-8c2a0f123326",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DRhodamine-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a077f85d-f2ee-4b1b-aada-3e194e724e86.json b/test/data/enm/study-NWKI-a077f85d-f2ee-4b1b-aada-3e194e724e86.json
new file mode 100644
index 0000000..29d3436
--- /dev/null
+++ b/test/data/enm/study-NWKI-a077f85d-f2ee-4b1b-aada-3e194e724e86.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-a077f85d-f2ee-4b1b-aada-3e194e724e86",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a08fdecf-eefe-4c5b-8e7c-19bd63a19702.json b/test/data/enm/study-NWKI-a08fdecf-eefe-4c5b-8e7c-19bd63a19702.json
new file mode 100644
index 0000000..c6d91d9
--- /dev/null
+++ b/test/data/enm/study-NWKI-a08fdecf-eefe-4c5b-8e7c-19bd63a19702.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-a08fdecf-eefe-4c5b-8e7c-19bd63a19702",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 3,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a0a7dbb4-fe64-4040-940c-62a0f9c8299c.json b/test/data/enm/study-NWKI-a0a7dbb4-fe64-4040-940c-62a0f9c8299c.json
new file mode 100644
index 0000000..4f11e15
--- /dev/null
+++ b/test/data/enm/study-NWKI-a0a7dbb4-fe64-4040-940c-62a0f9c8299c.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-a0a7dbb4-fe64-4040-940c-62a0f9c8299c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a0d28be6-62ff-4ced-91ef-cd3fcee39631.json b/test/data/enm/study-NWKI-a0d28be6-62ff-4ced-91ef-cd3fcee39631.json
new file mode 100644
index 0000000..009494a
--- /dev/null
+++ b/test/data/enm/study-NWKI-a0d28be6-62ff-4ced-91ef-cd3fcee39631.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-a0d28be6-62ff-4ced-91ef-cd3fcee39631",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ef8660fd-e624-3a94-91bc-ad5a6e47bcf3"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a0faadeb-60cf-4a7e-b904-1d463f87da8b.json b/test/data/enm/study-NWKI-a0faadeb-60cf-4a7e-b904-1d463f87da8b.json
new file mode 100644
index 0000000..8873843
--- /dev/null
+++ b/test/data/enm/study-NWKI-a0faadeb-60cf-4a7e-b904-1d463f87da8b.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-a0faadeb-60cf-4a7e-b904-1d463f87da8b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DVT750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a2074d37-5a26-4834-b65e-3816b8210262.json b/test/data/enm/study-NWKI-a2074d37-5a26-4834-b65e-3816b8210262.json
new file mode 100644
index 0000000..abc6a9b
--- /dev/null
+++ b/test/data/enm/study-NWKI-a2074d37-5a26-4834-b65e-3816b8210262.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-a2074d37-5a26-4834-b65e-3816b8210262",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae63c430-7a80-35c3-828d-c859d81ce698"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 4.4,
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a24c3d6d-c9f3-4741-9390-285a44c0ee30.json b/test/data/enm/study-NWKI-a24c3d6d-c9f3-4741-9390-285a44c0ee30.json
new file mode 100644
index 0000000..3e9c656
--- /dev/null
+++ b/test/data/enm/study-NWKI-a24c3d6d-c9f3-4741-9390-285a44c0ee30.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-a24c3d6d-c9f3-4741-9390-285a44c0ee30",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5172b34a-a6f6-398f-ace6-1d30e6bc9efa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -2.72
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5136670d-2925-31d0-8e12-811f8d67677f.json b/test/data/enm/study-NWKI-a2790aa9-23c6-4a18-b8a5-6153f6d03feb.json
index 15cd41f..15cd41f 100644
--- a/test/data/enm/study-NWKI-5136670d-2925-31d0-8e12-811f8d67677f.json
+++ b/test/data/enm/study-NWKI-a2790aa9-23c6-4a18-b8a5-6153f6d03feb.json
diff --git a/test/data/enm/study-NWKI-a2b566c2-10f2-419e-9274-0386e24dff1c.json b/test/data/enm/study-NWKI-a2b566c2-10f2-419e-9274-0386e24dff1c.json
new file mode 100644
index 0000000..77ef3b8
--- /dev/null
+++ b/test/data/enm/study-NWKI-a2b566c2-10f2-419e-9274-0386e24dff1c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-a2b566c2-10f2-419e-9274-0386e24dff1c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a2c0c4c4-72b9-4e53-8d19-74e3540576dc.json b/test/data/enm/study-NWKI-a2c0c4c4-72b9-4e53-8d19-74e3540576dc.json
new file mode 100644
index 0000000..9aae916
--- /dev/null
+++ b/test/data/enm/study-NWKI-a2c0c4c4-72b9-4e53-8d19-74e3540576dc.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-a2c0c4c4-72b9-4e53-8d19-74e3540576dc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a2ddf7c5-e959-4091-a35c-ba626cd0e1fb.json b/test/data/enm/study-NWKI-a2ddf7c5-e959-4091-a35c-ba626cd0e1fb.json
new file mode 100644
index 0000000..a415df6
--- /dev/null
+++ b/test/data/enm/study-NWKI-a2ddf7c5-e959-4091-a35c-ba626cd0e1fb.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-a2ddf7c5-e959-4091-a35c-ba626cd0e1fb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-506de59a-ae92-361b-a934-0fdfa41101c0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DVT680-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-473ed1d8-ae5a-3c80-b3f7-50dbc4fd9a3b.json b/test/data/enm/study-NWKI-a30dd268-00ac-4e0c-a7e4-b96903513235.json
index 361c216..361c216 100644
--- a/test/data/enm/study-NWKI-473ed1d8-ae5a-3c80-b3f7-50dbc4fd9a3b.json
+++ b/test/data/enm/study-NWKI-a30dd268-00ac-4e0c-a7e4-b96903513235.json
diff --git a/test/data/enm/study-NWKI-34a6262c-7f25-3eea-9dd0-bf1e1df40ca9.json b/test/data/enm/study-NWKI-a354f38a-4a3f-4ff0-98fe-68fdca27d5f3.json
index 94e64e1..94e64e1 100644
--- a/test/data/enm/study-NWKI-34a6262c-7f25-3eea-9dd0-bf1e1df40ca9.json
+++ b/test/data/enm/study-NWKI-a354f38a-4a3f-4ff0-98fe-68fdca27d5f3.json
diff --git a/test/data/enm/study-NWKI-7d4e9d59-fb38-37b9-99ec-b150ed7ce133.json b/test/data/enm/study-NWKI-a3d44087-49c4-40a0-9453-1e60deb312d2.json
index 9bc52f4..9bc52f4 100644
--- a/test/data/enm/study-NWKI-7d4e9d59-fb38-37b9-99ec-b150ed7ce133.json
+++ b/test/data/enm/study-NWKI-a3d44087-49c4-40a0-9453-1e60deb312d2.json
diff --git a/test/data/enm/study-NWKI-a3db8c03-15d1-4df0-bd7a-a29fc48585c9.json b/test/data/enm/study-NWKI-a3db8c03-15d1-4df0-bd7a-a29fc48585c9.json
new file mode 100644
index 0000000..7874c82
--- /dev/null
+++ b/test/data/enm/study-NWKI-a3db8c03-15d1-4df0-bd7a-a29fc48585c9.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-a3db8c03-15d1-4df0-bd7a-a29fc48585c9",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 97
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a46036b9-82d3-401d-8618-b8676bd264fc.json b/test/data/enm/study-NWKI-a46036b9-82d3-401d-8618-b8676bd264fc.json
new file mode 100644
index 0000000..f270ed4
--- /dev/null
+++ b/test/data/enm/study-NWKI-a46036b9-82d3-401d-8618-b8676bd264fc.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-a46036b9-82d3-401d-8618-b8676bd264fc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e7bdb2a3-0b3f-3a38-8d6b-1babc6d92da1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn2021056",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 19.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7ec086b4-bfe8-3246-9c6c-b3565770315b.json b/test/data/enm/study-NWKI-a487ab56-09b1-4518-b3da-ee1bd8bf3f25.json
index 30eb896..30eb896 100644
--- a/test/data/enm/study-NWKI-7ec086b4-bfe8-3246-9c6c-b3565770315b.json
+++ b/test/data/enm/study-NWKI-a487ab56-09b1-4518-b3da-ee1bd8bf3f25.json
diff --git a/test/data/enm/study-NWKI-a4be5bbf-d6bc-46c2-9bc6-c8436d9212b3.json b/test/data/enm/study-NWKI-a4be5bbf-d6bc-46c2-9bc6-c8436d9212b3.json
new file mode 100644
index 0000000..809999e
--- /dev/null
+++ b/test/data/enm/study-NWKI-a4be5bbf-d6bc-46c2-9bc6-c8436d9212b3.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-a4be5bbf-d6bc-46c2-9bc6-c8436d9212b3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DVT750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PEG"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PEG"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-0d776d00-aec4-3a75-9eb3-453909fc50ed.json b/test/data/enm/study-NWKI-a5257051-eb42-478e-95d6-3fa1572c63f3.json
index 653877a..653877a 100644
--- a/test/data/enm/study-NWKI-0d776d00-aec4-3a75-9eb3-453909fc50ed.json
+++ b/test/data/enm/study-NWKI-a5257051-eb42-478e-95d6-3fa1572c63f3.json
diff --git a/test/data/enm/study-NWKI-a52abca7-ad43-4cee-b5f3-e23c8848b73b.json b/test/data/enm/study-NWKI-a52abca7-ad43-4cee-b5f3-e23c8848b73b.json
new file mode 100644
index 0000000..7fdbf14
--- /dev/null
+++ b/test/data/enm/study-NWKI-a52abca7-ad43-4cee-b5f3-e23c8848b73b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-a52abca7-ad43-4cee-b5f3-e23c8848b73b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ca37d03d-af78-3982-8ca0-76025e71fcf1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a5d4f55a-48e0-4401-9f75-ac0c5ceb2f15.json b/test/data/enm/study-NWKI-a5d4f55a-48e0-4401-9f75-ac0c5ceb2f15.json
new file mode 100644
index 0000000..a3705e1
--- /dev/null
+++ b/test/data/enm/study-NWKI-a5d4f55a-48e0-4401-9f75-ac0c5ceb2f15.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "NWKI-a5d4f55a-48e0-4401-9f75-ac0c5ceb2f15",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3b09fdd1-3024-3be3-b1c6-332b44f75f99"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1038/nnano.2011.10",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Log Reciprocal EC50",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "Cell line": "Escherichia coli cells"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Log_Reciprocal_EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.51
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a5fe4f02-8837-4fad-a530-b2ac0034e3db.json b/test/data/enm/study-NWKI-a5fe4f02-8837-4fad-a530-b2ac0034e3db.json
new file mode 100644
index 0000000..ce477a0
--- /dev/null
+++ b/test/data/enm/study-NWKI-a5fe4f02-8837-4fad-a530-b2ac0034e3db.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-a5fe4f02-8837-4fad-a530-b2ac0034e3db",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4832de65-5a92-3849-8061-729a2d83017e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "Shape",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Anatase"
+  },
+  "effects": [
+    {
+      "endpoint": "SHAPE",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Anatase"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e834e3f1-8c0d-319e-9bac-21c613bdccd0.json b/test/data/enm/study-NWKI-a646b409-1a6d-4fa4-a45e-5033017d227f.json
index bd9bba4..bd9bba4 100644
--- a/test/data/enm/study-NWKI-e834e3f1-8c0d-319e-9bac-21c613bdccd0.json
+++ b/test/data/enm/study-NWKI-a646b409-1a6d-4fa4-a45e-5033017d227f.json
diff --git a/test/data/enm/study-NWKI-a6636f18-d03e-48a9-8a0c-7c445f8af478.json b/test/data/enm/study-NWKI-a6636f18-d03e-48a9-8a0c-7c445f8af478.json
new file mode 100644
index 0000000..0932861
--- /dev/null
+++ b/test/data/enm/study-NWKI-a6636f18-d03e-48a9-8a0c-7c445f8af478.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-a6636f18-d03e-48a9-8a0c-7c445f8af478",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DAminoSPARK680IVM"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amino_SPARK680_IVM"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino_SPARK680_IVM"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a6a7a56c-486a-4d66-a2f6-021e9a5b93fa.json b/test/data/enm/study-NWKI-a6a7a56c-486a-4d66-a2f6-021e9a5b93fa.json
new file mode 100644
index 0000000..dfd8125
--- /dev/null
+++ b/test/data/enm/study-NWKI-a6a7a56c-486a-4d66-a2f6-021e9a5b93fa.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-a6a7a56c-486a-4d66-a2f6-021e9a5b93fa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-1af17b5b-947a-3fd2-a000-cadf542dea4d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15,
+        "errorValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-11ae9232-1521-31d6-9466-c902c43d94fe.json b/test/data/enm/study-NWKI-a6d0db9c-be44-4a13-9c24-f5422885575a.json
index 57f3c06..57f3c06 100644
--- a/test/data/enm/study-NWKI-11ae9232-1521-31d6-9466-c902c43d94fe.json
+++ b/test/data/enm/study-NWKI-a6d0db9c-be44-4a13-9c24-f5422885575a.json
diff --git a/test/data/enm/study-NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e.json b/test/data/enm/study-NWKI-a6e0ae37-6f1a-403c-9e07-7b9fb9334132.json
index a7d4754..a7d4754 100644
--- a/test/data/enm/study-NWKI-d63286d0-3205-3216-92ce-e9e2632aca9e.json
+++ b/test/data/enm/study-NWKI-a6e0ae37-6f1a-403c-9e07-7b9fb9334132.json
diff --git a/test/data/enm/study-NWKI-a7636dce-30ed-41cb-8392-69454c3d7fb0.json b/test/data/enm/study-NWKI-a7636dce-30ed-41cb-8392-69454c3d7fb0.json
new file mode 100644
index 0000000..e2f092b
--- /dev/null
+++ b/test/data/enm/study-NWKI-a7636dce-30ed-41cb-8392-69454c3d7fb0.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-a7636dce-30ed-41cb-8392-69454c3d7fb0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 500,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 100
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900.json b/test/data/enm/study-NWKI-a7c2edb4-81b6-42db-ac24-f886e5ac4c55.json
index 9e5c5e1..9e5c5e1 100644
--- a/test/data/enm/study-NWKI-b19125a9-4499-3e0e-aa0c-7792401f4900.json
+++ b/test/data/enm/study-NWKI-a7c2edb4-81b6-42db-ac24-f886e5ac4c55.json
diff --git a/test/data/enm/study-NWKI-a89bb7de-61c6-416e-8304-e7ec2111b843.json b/test/data/enm/study-NWKI-a89bb7de-61c6-416e-8304-e7ec2111b843.json
new file mode 100644
index 0000000..a8a9822
--- /dev/null
+++ b/test/data/enm/study-NWKI-a89bb7de-61c6-416e-8304-e7ec2111b843.json
@@ -0,0 +1,55 @@
+{
+  "uuid": "NWKI-a89bb7de-61c6-416e-8304-e7ec2111b843",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2af8ed34-029d-3644-8327-23a596cfae0d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_MELTING_SECTION",
+      "term": "http://semanticscience.org/resource/CHEMINF_000256",
+      "title": "4.2 Melting point / freezing point"
+    },
+    "endpoint": "Melting Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Melting Point",
+      "conditions": {
+        "Decomposition": null,
+        "Sublimation": null
+      },
+      "result": {
+        "unit": "°C",
+        "loQualifier": ">=",
+        "loValue": 1600
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a9686fa8-19cc-4de9-afd1-bb66d50adc61.json b/test/data/enm/study-NWKI-a9686fa8-19cc-4de9-afd1-bb66d50adc61.json
new file mode 100644
index 0000000..3c3d23d
--- /dev/null
+++ b/test/data/enm/study-NWKI-a9686fa8-19cc-4de9-afd1-bb66d50adc61.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-a9686fa8-19cc-4de9-afd1-bb66d50adc61",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae0be5b8-266b-3b6a-825d-55f14b51cc99"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DArg7COOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a970b210-1925-41f3-82ec-d1191c19ab22.json b/test/data/enm/study-NWKI-a970b210-1925-41f3-82ec-d1191c19ab22.json
new file mode 100644
index 0000000..b8cf6cb
--- /dev/null
+++ b/test/data/enm/study-NWKI-a970b210-1925-41f3-82ec-d1191c19ab22.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-a970b210-1925-41f3-82ec-d1191c19ab22",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c3d91296-7c2d-3971-b932-e671f2f83aa8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 3.37,
+        "errorValue": 0.57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a994fb96-60a5-4ad0-9cb9-c566c7f0a76e.json b/test/data/enm/study-NWKI-a994fb96-60a5-4ad0-9cb9-c566c7f0a76e.json
new file mode 100644
index 0000000..b33961a
--- /dev/null
+++ b/test/data/enm/study-NWKI-a994fb96-60a5-4ad0-9cb9-c566c7f0a76e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-a994fb96-60a5-4ad0-9cb9-c566c7f0a76e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4beee533-65e4-364a-adb7-7a520180de61"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-175ce512-1cbd-3a84-b216-dd0f47170dc8.json b/test/data/enm/study-NWKI-aa3dbdb7-90f5-43e1-9ece-29a5b0398e90.json
index 1ea713d..1ea713d 100644
--- a/test/data/enm/study-NWKI-175ce512-1cbd-3a84-b216-dd0f47170dc8.json
+++ b/test/data/enm/study-NWKI-aa3dbdb7-90f5-43e1-9ece-29a5b0398e90.json
diff --git a/test/data/enm/study-NWKI-aac134d2-3527-441c-8e37-c873b418d489.json b/test/data/enm/study-NWKI-aac134d2-3527-441c-8e37-c873b418d489.json
new file mode 100644
index 0000000..590d26f
--- /dev/null
+++ b/test/data/enm/study-NWKI-aac134d2-3527-441c-8e37-c873b418d489.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-aac134d2-3527-441c-8e37-c873b418d489",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DVT750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "VT750"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "VT750"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-bb304faf-e44e-3103-b2a6-01b99c1c23de.json b/test/data/enm/study-NWKI-aacd1d5b-bbb1-4bfe-add2-1b616797b9c2.json
index 5798795..5798795 100644
--- a/test/data/enm/study-NWKI-bb304faf-e44e-3103-b2a6-01b99c1c23de.json
+++ b/test/data/enm/study-NWKI-aacd1d5b-bbb1-4bfe-add2-1b616797b9c2.json
diff --git a/test/data/enm/study-NWKI-ab95b96d-661a-4f2c-bc84-1483ee871d50.json b/test/data/enm/study-NWKI-ab95b96d-661a-4f2c-bc84-1483ee871d50.json
new file mode 100644
index 0000000..0c6f252
--- /dev/null
+++ b/test/data/enm/study-NWKI-ab95b96d-661a-4f2c-bc84-1483ee871d50.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-ab95b96d-661a-4f2c-bc84-1483ee871d50",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3d8aaa66-97d9-351b-9771-691300d5e97c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 267
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-aba213a3-9081-41d1-b925-cbcd874ee2d0.json b/test/data/enm/study-NWKI-aba213a3-9081-41d1-b925-cbcd874ee2d0.json
new file mode 100644
index 0000000..aaac916
--- /dev/null
+++ b/test/data/enm/study-NWKI-aba213a3-9081-41d1-b925-cbcd874ee2d0.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-aba213a3-9081-41d1-b925-cbcd874ee2d0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-90869553-c8fe-3ef6-8e68-47f392958127"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY55"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cy5.5"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cy5.5"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5a049bb7-380d-3c89-9c39-f1310ed7b09d.json b/test/data/enm/study-NWKI-ac38b52d-7f93-49b6-be77-66198edb7492.json
index 1d942fb..1d942fb 100644
--- a/test/data/enm/study-NWKI-5a049bb7-380d-3c89-9c39-f1310ed7b09d.json
+++ b/test/data/enm/study-NWKI-ac38b52d-7f93-49b6-be77-66198edb7492.json
diff --git a/test/data/enm/study-NWKI-ac5f75d2-be9e-4773-97d6-9d9219c5bb98.json b/test/data/enm/study-NWKI-ac5f75d2-be9e-4773-97d6-9d9219c5bb98.json
new file mode 100644
index 0000000..b00a665
--- /dev/null
+++ b/test/data/enm/study-NWKI-ac5f75d2-be9e-4773-97d6-9d9219c5bb98.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-ac5f75d2-be9e-4773-97d6-9d9219c5bb98",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 250,
+        "upQualifier": "<=",
+        "upValue": 500
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-13acd41a-bbf5-362c-bb6e-54c26f4c5f73.json b/test/data/enm/study-NWKI-ac60ab82-10f4-454a-908b-d3d0b94a5c3c.json
index 8736b09..8736b09 100644
--- a/test/data/enm/study-NWKI-13acd41a-bbf5-362c-bb6e-54c26f4c5f73.json
+++ b/test/data/enm/study-NWKI-ac60ab82-10f4-454a-908b-d3d0b94a5c3c.json
diff --git a/test/data/enm/study-NWKI-ad183e8f-53b7-4139-82f6-bbd7a4948f4e.json b/test/data/enm/study-NWKI-ad183e8f-53b7-4139-82f6-bbd7a4948f4e.json
new file mode 100644
index 0000000..d391614
--- /dev/null
+++ b/test/data/enm/study-NWKI-ad183e8f-53b7-4139-82f6-bbd7a4948f4e.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-ad183e8f-53b7-4139-82f6-bbd7a4948f4e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82bed004-9895-3bdf-822f-0b9906d2ee06"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -7.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-458c2d5a-53f0-3c65-81eb-6fb5d128db59.json b/test/data/enm/study-NWKI-ad5f29a5-b5f3-4195-8acf-3e90ea113eeb.json
index 1a6f8c0..1a6f8c0 100644
--- a/test/data/enm/study-NWKI-458c2d5a-53f0-3c65-81eb-6fb5d128db59.json
+++ b/test/data/enm/study-NWKI-ad5f29a5-b5f3-4195-8acf-3e90ea113eeb.json
diff --git a/test/data/enm/study-NWKI-ad69fbd5-3909-4d61-9db3-4e47619b7350.json b/test/data/enm/study-NWKI-ad69fbd5-3909-4d61-9db3-4e47619b7350.json
new file mode 100644
index 0000000..afd40f7
--- /dev/null
+++ b/test/data/enm/study-NWKI-ad69fbd5-3909-4d61-9db3-4e47619b7350.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-ad69fbd5-3909-4d61-9db3-4e47619b7350",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ae01c65a-e141-4a3e-997a-07068990a1ed.json b/test/data/enm/study-NWKI-ae01c65a-e141-4a3e-997a-07068990a1ed.json
new file mode 100644
index 0000000..839ad21
--- /dev/null
+++ b/test/data/enm/study-NWKI-ae01c65a-e141-4a3e-997a-07068990a1ed.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-ae01c65a-e141-4a3e-997a-07068990a1ed",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ae4d3a55-5ea2-4964-bcc1-7f7b016aec31.json b/test/data/enm/study-NWKI-ae4d3a55-5ea2-4964-bcc1-7f7b016aec31.json
new file mode 100644
index 0000000..8e3eb45
--- /dev/null
+++ b/test/data/enm/study-NWKI-ae4d3a55-5ea2-4964-bcc1-7f7b016aec31.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-ae4d3a55-5ea2-4964-bcc1-7f7b016aec31",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-47d254de-8242-3374-9ed3-085227d473cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Amino_SPARK680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Amino_SPARK680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-af91a0ab-cd0a-4af2-9f08-5cbff02f2c02.json b/test/data/enm/study-NWKI-af91a0ab-cd0a-4af2-9f08-5cbff02f2c02.json
new file mode 100644
index 0000000..49230c0
--- /dev/null
+++ b/test/data/enm/study-NWKI-af91a0ab-cd0a-4af2-9f08-5cbff02f2c02.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-af91a0ab-cd0a-4af2-9f08-5cbff02f2c02",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-69b604fb-e892-31ba-a6f5-feb6cb04effb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-6821e372-3b17-3a56-8fac-f66115f24e5d.json b/test/data/enm/study-NWKI-afaf9d66-7295-4597-b804-b1b6ff16380e.json
index c8d8cb8..c8d8cb8 100644
--- a/test/data/enm/study-NWKI-6821e372-3b17-3a56-8fac-f66115f24e5d.json
+++ b/test/data/enm/study-NWKI-afaf9d66-7295-4597-b804-b1b6ff16380e.json
diff --git a/test/data/enm/study-NWKI-7efe542f-264c-3b57-a516-410b730df963.json b/test/data/enm/study-NWKI-afb4950b-8b6c-49aa-bf88-002590f9da09.json
index a6f20ea..a6f20ea 100644
--- a/test/data/enm/study-NWKI-7efe542f-264c-3b57-a516-410b730df963.json
+++ b/test/data/enm/study-NWKI-afb4950b-8b6c-49aa-bf88-002590f9da09.json
diff --git a/test/data/enm/study-NWKI-afe3c4ca-7d1a-4d30-bff9-1a803f7664ec.json b/test/data/enm/study-NWKI-afe3c4ca-7d1a-4d30-bff9-1a803f7664ec.json
new file mode 100644
index 0000000..43b0f81
--- /dev/null
+++ b/test/data/enm/study-NWKI-afe3c4ca-7d1a-4d30-bff9-1a803f7664ec.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-afe3c4ca-7d1a-4d30-bff9-1a803f7664ec",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DRhodamine-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Rhodamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Rhodamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c6c08b6e-cb44-3e91-9669-0979667f12b3.json b/test/data/enm/study-NWKI-b0ec7163-0d6b-455d-ac0b-0b20289bd60a.json
index 4c9111e..4c9111e 100644
--- a/test/data/enm/study-NWKI-c6c08b6e-cb44-3e91-9669-0979667f12b3.json
+++ b/test/data/enm/study-NWKI-b0ec7163-0d6b-455d-ac0b-0b20289bd60a.json
diff --git a/test/data/enm/study-NWKI-b163f566-9eeb-49fa-8a95-5cfcb0b308c3.json b/test/data/enm/study-NWKI-b163f566-9eeb-49fa-8a95-5cfcb0b308c3.json
new file mode 100644
index 0000000..e6f2535
--- /dev/null
+++ b/test/data/enm/study-NWKI-b163f566-9eeb-49fa-8a95-5cfcb0b308c3.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-b163f566-9eeb-49fa-8a95-5cfcb0b308c3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-21dbebfb-695f-3ff4-b7a4-bead2b52cf13"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 0.0,
+        "upQualifier": "<=",
+        "upValue": 50
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b19640e8-70fc-4f59-9673-18d993638b49.json b/test/data/enm/study-NWKI-b19640e8-70fc-4f59-9673-18d993638b49.json
new file mode 100644
index 0000000..a2572a8
--- /dev/null
+++ b/test/data/enm/study-NWKI-b19640e8-70fc-4f59-9673-18d993638b49.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-b19640e8-70fc-4f59-9673-18d993638b49",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 2000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 57
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad.json b/test/data/enm/study-NWKI-b2410a3b-3566-4d20-b44d-26cc260aa5ba.json
index 6d9e924..6d9e924 100644
--- a/test/data/enm/study-NWKI-77fb742b-c676-3ad7-bd19-6d5ec1df62ad.json
+++ b/test/data/enm/study-NWKI-b2410a3b-3566-4d20-b44d-26cc260aa5ba.json
diff --git a/test/data/enm/study-NWKI-6b8a44a2-b835-3f75-903c-cf0a71a247c9.json b/test/data/enm/study-NWKI-b253bb51-98c6-4542-ac49-1d4065642da9.json
index cc22d62..cc22d62 100644
--- a/test/data/enm/study-NWKI-6b8a44a2-b835-3f75-903c-cf0a71a247c9.json
+++ b/test/data/enm/study-NWKI-b253bb51-98c6-4542-ac49-1d4065642da9.json
diff --git a/test/data/enm/study-NWKI-04962f10-34c8-3118-953e-d40d7244209c.json b/test/data/enm/study-NWKI-b2df0522-985f-4afe-b6c1-7d044f4606b9.json
index e01a491..e01a491 100644
--- a/test/data/enm/study-NWKI-04962f10-34c8-3118-953e-d40d7244209c.json
+++ b/test/data/enm/study-NWKI-b2df0522-985f-4afe-b6c1-7d044f4606b9.json
diff --git a/test/data/enm/study-NWKI-b2f8f2b7-15bf-4898-86c4-ab0157786afa.json b/test/data/enm/study-NWKI-b2f8f2b7-15bf-4898-86c4-ab0157786afa.json
new file mode 100644
index 0000000..0164430
--- /dev/null
+++ b/test/data/enm/study-NWKI-b2f8f2b7-15bf-4898-86c4-ab0157786afa.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-b2f8f2b7-15bf-4898-86c4-ab0157786afa",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0.json b/test/data/enm/study-NWKI-b31df475-cec5-45fb-a010-e2af8524f5bd.json
index 11f8894..11f8894 100644
--- a/test/data/enm/study-NWKI-56d49cc3-4a76-354b-9a77-4b2ecb2dbef0.json
+++ b/test/data/enm/study-NWKI-b31df475-cec5-45fb-a010-e2af8524f5bd.json
diff --git a/test/data/enm/study-NWKI-b3232f4d-a5ce-403b-8389-ab510c2a4fa5.json b/test/data/enm/study-NWKI-b3232f4d-a5ce-403b-8389-ab510c2a4fa5.json
new file mode 100644
index 0000000..e017a05
--- /dev/null
+++ b/test/data/enm/study-NWKI-b3232f4d-a5ce-403b-8389-ab510c2a4fa5.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-b3232f4d-a5ce-403b-8389-ab510c2a4fa5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b6c86895-1b73-39ec-8bd2-0106e77a7673"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DAF488"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b344319c-0fd1-40f5-b99d-5d63247257d2.json b/test/data/enm/study-NWKI-b344319c-0fd1-40f5-b99d-5d63247257d2.json
new file mode 100644
index 0000000..fd24eb6
--- /dev/null
+++ b/test/data/enm/study-NWKI-b344319c-0fd1-40f5-b99d-5d63247257d2.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-b344319c-0fd1-40f5-b99d-5d63247257d2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 8
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 100
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c3d91296-7c2d-3971-b932-e671f2f83aa8.json b/test/data/enm/study-NWKI-b3e40d3a-a564-42ef-8200-bd7d9836dda1.json
index cff9e10..cff9e10 100644
--- a/test/data/enm/study-NWKI-c3d91296-7c2d-3971-b932-e671f2f83aa8.json
+++ b/test/data/enm/study-NWKI-b3e40d3a-a564-42ef-8200-bd7d9836dda1.json
diff --git a/test/data/enm/study-NWKI-b415c8a0-b36e-4872-a113-e47e49172f57.json b/test/data/enm/study-NWKI-b415c8a0-b36e-4872-a113-e47e49172f57.json
new file mode 100644
index 0000000..ab56883
--- /dev/null
+++ b/test/data/enm/study-NWKI-b415c8a0-b36e-4872-a113-e47e49172f57.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-b415c8a0-b36e-4872-a113-e47e49172f57",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-db562080-5286-327a-b813-6775c437385e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DRCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-99ad0a8c-1c4b-3270-8a4b-7dab013e5fe8.json b/test/data/enm/study-NWKI-b47b3bb8-8641-4c6a-b225-19d76714e4f9.json
index 79e637d..79e637d 100644
--- a/test/data/enm/study-NWKI-99ad0a8c-1c4b-3270-8a4b-7dab013e5fe8.json
+++ b/test/data/enm/study-NWKI-b47b3bb8-8641-4c6a-b225-19d76714e4f9.json
diff --git a/test/data/enm/study-NWKI-88767671-5631-3c93-8cfc-db0f48978e77.json b/test/data/enm/study-NWKI-b4ab83bc-2f09-4aee-8e13-71525a8208ac.json
index 1526d44..1526d44 100644
--- a/test/data/enm/study-NWKI-88767671-5631-3c93-8cfc-db0f48978e77.json
+++ b/test/data/enm/study-NWKI-b4ab83bc-2f09-4aee-8e13-71525a8208ac.json
diff --git a/test/data/enm/study-NWKI-9a13f473-8a29-32e4-9653-ec03f5fb8923.json b/test/data/enm/study-NWKI-b4caa096-20f9-4b80-a35a-4db2789b3d8c.json
index b550b12..b550b12 100644
--- a/test/data/enm/study-NWKI-9a13f473-8a29-32e4-9653-ec03f5fb8923.json
+++ b/test/data/enm/study-NWKI-b4caa096-20f9-4b80-a35a-4db2789b3d8c.json
diff --git a/test/data/enm/study-NWKI-b4d22e0f-9803-4c59-8a3e-473f3c1af41b.json b/test/data/enm/study-NWKI-b4d22e0f-9803-4c59-8a3e-473f3c1af41b.json
new file mode 100644
index 0000000..7c41c8e
--- /dev/null
+++ b/test/data/enm/study-NWKI-b4d22e0f-9803-4c59-8a3e-473f3c1af41b.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-b4d22e0f-9803-4c59-8a3e-473f3c1af41b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 31
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b4fed1d0-a43c-4482-8433-cd0a24220095.json b/test/data/enm/study-NWKI-b4fed1d0-a43c-4482-8433-cd0a24220095.json
new file mode 100644
index 0000000..4a334f4
--- /dev/null
+++ b/test/data/enm/study-NWKI-b4fed1d0-a43c-4482-8433-cd0a24220095.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-b4fed1d0-a43c-4482-8433-cd0a24220095",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c7bee4e3-8884-3e29-ad8b-38decf6146fd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "O=CO[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "COOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2076c0ac-9601-33fb-a221-cd3055fd9b42.json b/test/data/enm/study-NWKI-b5028307-f5a7-43ee-9f16-9056ef54bb8b.json
index 3fd131e..3fd131e 100644
--- a/test/data/enm/study-NWKI-2076c0ac-9601-33fb-a221-cd3055fd9b42.json
+++ b/test/data/enm/study-NWKI-b5028307-f5a7-43ee-9f16-9056ef54bb8b.json
diff --git a/test/data/enm/study-NWKI-b51e63f2-de24-4b10-838d-be0de2f1e0e1.json b/test/data/enm/study-NWKI-b51e63f2-de24-4b10-838d-be0de2f1e0e1.json
new file mode 100644
index 0000000..d53f7e8
--- /dev/null
+++ b/test/data/enm/study-NWKI-b51e63f2-de24-4b10-838d-be0de2f1e0e1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-b51e63f2-de24-4b10-838d-be0de2f1e0e1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 80,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7cbc5266-5c2e-3821-a80a-5d6a63140d83.json b/test/data/enm/study-NWKI-b559c4ad-cf60-4602-aab1-088948542e00.json
index ef48b59..ef48b59 100644
--- a/test/data/enm/study-NWKI-7cbc5266-5c2e-3821-a80a-5d6a63140d83.json
+++ b/test/data/enm/study-NWKI-b559c4ad-cf60-4602-aab1-088948542e00.json
diff --git a/test/data/enm/study-NWKI-3424add5-867e-3dc5-864d-36c47589024b.json b/test/data/enm/study-NWKI-b5704215-4ac0-4d41-b185-53fe8b5747d7.json
index 9b89c76..9b89c76 100644
--- a/test/data/enm/study-NWKI-3424add5-867e-3dc5-864d-36c47589024b.json
+++ b/test/data/enm/study-NWKI-b5704215-4ac0-4d41-b185-53fe8b5747d7.json
diff --git a/test/data/enm/study-NWKI-b595fad5-c9e5-42a3-902f-261561ea55c2.json b/test/data/enm/study-NWKI-b595fad5-c9e5-42a3-902f-261561ea55c2.json
new file mode 100644
index 0000000..df6fbac
--- /dev/null
+++ b/test/data/enm/study-NWKI-b595fad5-c9e5-42a3-902f-261561ea55c2.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-b595fad5-c9e5-42a3-902f-261561ea55c2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b5d5c844-25e0-4df7-9855-4d18f205938b.json b/test/data/enm/study-NWKI-b5d5c844-25e0-4df7-9855-4d18f205938b.json
new file mode 100644
index 0000000..99fa9cd
--- /dev/null
+++ b/test/data/enm/study-NWKI-b5d5c844-25e0-4df7-9855-4d18f205938b.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-b5d5c844-25e0-4df7-9855-4d18f205938b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ae67096a-fca6-3afc-bade-c362e3eeadc8"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 889,
+        "errorValue": 32
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b60c415e-42fc-4af0-907e-ec6d3d07aebf.json b/test/data/enm/study-NWKI-b60c415e-42fc-4af0-907e-ec6d3d07aebf.json
new file mode 100644
index 0000000..56fe4b4
--- /dev/null
+++ b/test/data/enm/study-NWKI-b60c415e-42fc-4af0-907e-ec6d3d07aebf.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-b60c415e-42fc-4af0-907e-ec6d3d07aebf",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Metabolic Activity",
+    "guideline": [
+      "Tetrazolium Salt Cleavage"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Tetrazolium Salt Cleavage"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Metabolic_Activity",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 80
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c012600e-ca8e-31db-a7a8-d9f6a74e2464.json b/test/data/enm/study-NWKI-b6ad5d66-dd21-4d69-ba96-ae4e2623a8a0.json
index 56481ce..56481ce 100644
--- a/test/data/enm/study-NWKI-c012600e-ca8e-31db-a7a8-d9f6a74e2464.json
+++ b/test/data/enm/study-NWKI-b6ad5d66-dd21-4d69-ba96-ae4e2623a8a0.json
diff --git a/test/data/enm/study-NWKI-b6ed421d-8819-43ca-b207-0adf297e57bc.json b/test/data/enm/study-NWKI-b6ed421d-8819-43ca-b207-0adf297e57bc.json
new file mode 100644
index 0000000..b053096
--- /dev/null
+++ b/test/data/enm/study-NWKI-b6ed421d-8819-43ca-b207-0adf297e57bc.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-b6ed421d-8819-43ca-b207-0adf297e57bc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b6c86895-1b73-39ec-8bd2-0106e77a7673"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -3.34
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b6f7f4d3-684a-44c0-b32d-34be02d1b364.json b/test/data/enm/study-NWKI-b6f7f4d3-684a-44c0-b32d-34be02d1b364.json
new file mode 100644
index 0000000..2138ef0
--- /dev/null
+++ b/test/data/enm/study-NWKI-b6f7f4d3-684a-44c0-b32d-34be02d1b364.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-b6f7f4d3-684a-44c0-b32d-34be02d1b364",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 8
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 100
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b722b764-aa2b-4c82-b3d1-3f2f29fe9b59.json b/test/data/enm/study-NWKI-b722b764-aa2b-4c82-b3d1-3f2f29fe9b59.json
new file mode 100644
index 0000000..9cb5690
--- /dev/null
+++ b/test/data/enm/study-NWKI-b722b764-aa2b-4c82-b3d1-3f2f29fe9b59.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-b722b764-aa2b-4c82-b3d1-3f2f29fe9b59",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b729c58e-a905-4e14-9074-3ee8e20d202c.json b/test/data/enm/study-NWKI-b729c58e-a905-4e14-9074-3ee8e20d202c.json
new file mode 100644
index 0000000..2ac5bcc
--- /dev/null
+++ b/test/data/enm/study-NWKI-b729c58e-a905-4e14-9074-3ee8e20d202c.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-b729c58e-a905-4e14-9074-3ee8e20d202c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-69fa9265-308d-30c5-9d86-1f18cde14afb.json b/test/data/enm/study-NWKI-b73daa7d-227f-4a0c-b2c1-8b2515f43582.json
index 35dfc64..35dfc64 100644
--- a/test/data/enm/study-NWKI-69fa9265-308d-30c5-9d86-1f18cde14afb.json
+++ b/test/data/enm/study-NWKI-b73daa7d-227f-4a0c-b2c1-8b2515f43582.json
diff --git a/test/data/enm/study-NWKI-b7848f87-76a4-4f51-a7f3-cfa1668b2670.json b/test/data/enm/study-NWKI-b7848f87-76a4-4f51-a7f3-cfa1668b2670.json
new file mode 100644
index 0000000..303abee
--- /dev/null
+++ b/test/data/enm/study-NWKI-b7848f87-76a4-4f51-a7f3-cfa1668b2670.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-b7848f87-76a4-4f51-a7f3-cfa1668b2670",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fd891814-04d2-30bc-a0b6-cc3149bf75ec"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es9016975",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Isoelectric Point",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ISOELECTRIC POINT",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": 5.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b7d6c2a9-87d5-4648-b79a-872ca7706802.json b/test/data/enm/study-NWKI-b7d6c2a9-87d5-4648-b79a-872ca7706802.json
new file mode 100644
index 0000000..4fe3f10
--- /dev/null
+++ b/test/data/enm/study-NWKI-b7d6c2a9-87d5-4648-b79a-872ca7706802.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-b7d6c2a9-87d5-4648-b79a-872ca7706802",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 93
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-155bb96c-2d7e-384d-b55d-45856eeda386.json b/test/data/enm/study-NWKI-b81bcb58-126e-40d3-b4ea-3b7d613f7e1e.json
index 1e54fdf..1e54fdf 100644
--- a/test/data/enm/study-NWKI-155bb96c-2d7e-384d-b55d-45856eeda386.json
+++ b/test/data/enm/study-NWKI-b81bcb58-126e-40d3-b4ea-3b7d613f7e1e.json
diff --git a/test/data/enm/study-NWKI-19b5dfef-0d95-3878-9075-2897e8631277.json b/test/data/enm/study-NWKI-b82cf2e9-5da7-4c35-8014-ecb154a3639b.json
index 27e8ac7..27e8ac7 100644
--- a/test/data/enm/study-NWKI-19b5dfef-0d95-3878-9075-2897e8631277.json
+++ b/test/data/enm/study-NWKI-b82cf2e9-5da7-4c35-8014-ecb154a3639b.json
diff --git a/test/data/enm/study-NWKI-7680f6c2-68d8-3ee4-b84b-8107da3f6e19.json b/test/data/enm/study-NWKI-b8bdb816-6822-4cfb-b0db-d775259ada5b.json
index 698d80d..698d80d 100644
--- a/test/data/enm/study-NWKI-7680f6c2-68d8-3ee4-b84b-8107da3f6e19.json
+++ b/test/data/enm/study-NWKI-b8bdb816-6822-4cfb-b0db-d775259ada5b.json
diff --git a/test/data/enm/study-NWKI-072b1631-f6f1-3f47-a4dc-723aa4eb0700.json b/test/data/enm/study-NWKI-b8f2a16e-05cf-41e5-b61e-8a1be9cf8691.json
index 2edf5da..2edf5da 100644
--- a/test/data/enm/study-NWKI-072b1631-f6f1-3f47-a4dc-723aa4eb0700.json
+++ b/test/data/enm/study-NWKI-b8f2a16e-05cf-41e5-b61e-8a1be9cf8691.json
diff --git a/test/data/enm/study-NWKI-d42892b8-9b57-30a2-aa89-af61880c337a.json b/test/data/enm/study-NWKI-b92935a2-e18a-4a51-a6a8-92961b6153a7.json
index c34b3ab..c34b3ab 100644
--- a/test/data/enm/study-NWKI-d42892b8-9b57-30a2-aa89-af61880c337a.json
+++ b/test/data/enm/study-NWKI-b92935a2-e18a-4a51-a6a8-92961b6153a7.json
diff --git a/test/data/enm/study-NWKI-b9477bfc-dc2b-4ea2-aee9-528395dfeeee.json b/test/data/enm/study-NWKI-b9477bfc-dc2b-4ea2-aee9-528395dfeeee.json
new file mode 100644
index 0000000..1174f3a
--- /dev/null
+++ b/test/data/enm/study-NWKI-b9477bfc-dc2b-4ea2-aee9-528395dfeeee.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-b9477bfc-dc2b-4ea2-aee9-528395dfeeee",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d7e38d71-0fcb-3a23-8cbe-aae4ce82b33a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -56,
+        "errorValue": 10.9
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b9676734-2d7d-4cf5-85ea-4002591b618a.json b/test/data/enm/study-NWKI-b9676734-2d7d-4cf5-85ea-4002591b618a.json
new file mode 100644
index 0000000..5f5b6fb
--- /dev/null
+++ b/test/data/enm/study-NWKI-b9676734-2d7d-4cf5-85ea-4002591b618a.json
@@ -0,0 +1,73 @@
+{
+  "uuid": "NWKI-b9676734-2d7d-4cf5-85ea-4002591b618a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5172b34a-a6f6-398f-ace6-1d30e6bc9efa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DNH2"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "NH2"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "[H]N[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "NH2"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b97b0b06-7f24-4f70-8b99-fa7db4806950.json b/test/data/enm/study-NWKI-b97b0b06-7f24-4f70-8b99-fa7db4806950.json
new file mode 100644
index 0000000..20dfc41
--- /dev/null
+++ b/test/data/enm/study-NWKI-b97b0b06-7f24-4f70-8b99-fa7db4806950.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-b97b0b06-7f24-4f70-8b99-fa7db4806950",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0455b6e1-5203-37bb-a98b-20460acceda1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DCY35-2DTat"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d47026e9-f0f9-3080-8eca-d2b7fd66d261.json b/test/data/enm/study-NWKI-b9a32c67-76d3-431b-b2a4-aa4dabc27537.json
index d761458..d761458 100644
--- a/test/data/enm/study-NWKI-d47026e9-f0f9-3080-8eca-d2b7fd66d261.json
+++ b/test/data/enm/study-NWKI-b9a32c67-76d3-431b-b2a4-aa4dabc27537.json
diff --git a/test/data/enm/study-NWKI-b9e19cf2-74b1-4293-a8ed-9dfc47833398.json b/test/data/enm/study-NWKI-b9e19cf2-74b1-4293-a8ed-9dfc47833398.json
new file mode 100644
index 0000000..fa472f8
--- /dev/null
+++ b/test/data/enm/study-NWKI-b9e19cf2-74b1-4293-a8ed-9dfc47833398.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-b9e19cf2-74b1-4293-a8ed-9dfc47833398",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-6b07ffd5-b573-3889-a64c-ae7cc99ff977"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-13b28611-c05b-325b-9e60-182c49b2a288.json b/test/data/enm/study-NWKI-b9ed5cb5-983c-4c0a-af8f-7af2afb81e7d.json
index 5d1bc83..5d1bc83 100644
--- a/test/data/enm/study-NWKI-13b28611-c05b-325b-9e60-182c49b2a288.json
+++ b/test/data/enm/study-NWKI-b9ed5cb5-983c-4c0a-af8f-7af2afb81e7d.json
diff --git a/test/data/enm/study-NWKI-ba3469fb-e14c-482e-8b8a-8d84e92c02ea.json b/test/data/enm/study-NWKI-ba3469fb-e14c-482e-8b8a-8d84e92c02ea.json
new file mode 100644
index 0000000..f70d25a
--- /dev/null
+++ b/test/data/enm/study-NWKI-ba3469fb-e14c-482e-8b8a-8d84e92c02ea.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-ba3469fb-e14c-482e-8b8a-8d84e92c02ea",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b5385309-1812-33ad-a4cf-66d8d3a26bcc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14.2,
+        "errorValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30.json b/test/data/enm/study-NWKI-bb1d9e70-67eb-4f36-af0d-1e150743f576.json
index 94bad46..94bad46 100644
--- a/test/data/enm/study-NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30.json
+++ b/test/data/enm/study-NWKI-bb1d9e70-67eb-4f36-af0d-1e150743f576.json
diff --git a/test/data/enm/study-NWKI-202b322d-51c9-3d73-a049-1e4019f8ddad.json b/test/data/enm/study-NWKI-bb3415eb-1dba-4325-baff-417320e89afb.json
index b215c24..b215c24 100644
--- a/test/data/enm/study-NWKI-202b322d-51c9-3d73-a049-1e4019f8ddad.json
+++ b/test/data/enm/study-NWKI-bb3415eb-1dba-4325-baff-417320e89afb.json
diff --git a/test/data/enm/study-NWKI-dd085452-8fd2-3025-a64f-2784fdf17879.json b/test/data/enm/study-NWKI-bb3b0f78-9209-45ee-8a5d-03c0342b1fa7.json
index ee6ceaa..ee6ceaa 100644
--- a/test/data/enm/study-NWKI-dd085452-8fd2-3025-a64f-2784fdf17879.json
+++ b/test/data/enm/study-NWKI-bb3b0f78-9209-45ee-8a5d-03c0342b1fa7.json
diff --git a/test/data/enm/study-NWKI-e866549e-38cf-3b98-a0b1-a483e275d261.json b/test/data/enm/study-NWKI-bc0e2bcb-b5f0-4b5e-b0a0-f5151c353825.json
index 4f1b1b0..4f1b1b0 100644
--- a/test/data/enm/study-NWKI-e866549e-38cf-3b98-a0b1-a483e275d261.json
+++ b/test/data/enm/study-NWKI-bc0e2bcb-b5f0-4b5e-b0a0-f5151c353825.json
diff --git a/test/data/enm/study-NWKI-bc3086e8-cb66-4c29-9f6e-156525fad6d1.json b/test/data/enm/study-NWKI-bc3086e8-cb66-4c29-9f6e-156525fad6d1.json
new file mode 100644
index 0000000..c1417fd
--- /dev/null
+++ b/test/data/enm/study-NWKI-bc3086e8-cb66-4c29-9f6e-156525fad6d1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-bc3086e8-cb66-4c29-9f6e-156525fad6d1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 250,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-db562080-5286-327a-b813-6775c437385e.json b/test/data/enm/study-NWKI-bc3de50b-f2a1-42c1-b4b5-a180e292b177.json
index d557947..d557947 100644
--- a/test/data/enm/study-NWKI-db562080-5286-327a-b813-6775c437385e.json
+++ b/test/data/enm/study-NWKI-bc3de50b-f2a1-42c1-b4b5-a180e292b177.json
diff --git a/test/data/enm/study-NWKI-bc486e1b-f68b-4911-a4af-990994e8fd72.json b/test/data/enm/study-NWKI-bc486e1b-f68b-4911-a4af-990994e8fd72.json
new file mode 100644
index 0000000..d5c4843
--- /dev/null
+++ b/test/data/enm/study-NWKI-bc486e1b-f68b-4911-a4af-990994e8fd72.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-bc486e1b-f68b-4911-a4af-990994e8fd72",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb.json b/test/data/enm/study-NWKI-bcf835c5-7b6d-4dd4-99a9-318d9b5b4e90.json
index 30e5d1f..30e5d1f 100644
--- a/test/data/enm/study-NWKI-3db8eb74-b206-31ad-8c1b-3569703c47cb.json
+++ b/test/data/enm/study-NWKI-bcf835c5-7b6d-4dd4-99a9-318d9b5b4e90.json
diff --git a/test/data/enm/study-NWKI-4b4cb369-8202-3483-9220-553e433c9159.json b/test/data/enm/study-NWKI-bd297302-a9f6-4bc6-ab88-1ba058356fd3.json
index 963e531..963e531 100644
--- a/test/data/enm/study-NWKI-4b4cb369-8202-3483-9220-553e433c9159.json
+++ b/test/data/enm/study-NWKI-bd297302-a9f6-4bc6-ab88-1ba058356fd3.json
diff --git a/test/data/enm/study-NWKI-9142c528-4a84-3566-b678-dc1eef7d22fe.json b/test/data/enm/study-NWKI-bd4d124b-86d8-4a04-ba5a-cb9e28ddf28a.json
index c613621..c613621 100644
--- a/test/data/enm/study-NWKI-9142c528-4a84-3566-b678-dc1eef7d22fe.json
+++ b/test/data/enm/study-NWKI-bd4d124b-86d8-4a04-ba5a-cb9e28ddf28a.json
diff --git a/test/data/enm/study-NWKI-cad5bf58-cc90-33e5-88bb-bad4c9f9fe9e.json b/test/data/enm/study-NWKI-be9f2ae3-be0e-402f-a6ba-5aada4c4c956.json
index a71c286..a71c286 100644
--- a/test/data/enm/study-NWKI-cad5bf58-cc90-33e5-88bb-bad4c9f9fe9e.json
+++ b/test/data/enm/study-NWKI-be9f2ae3-be0e-402f-a6ba-5aada4c4c956.json
diff --git a/test/data/enm/study-NWKI-37a99dad-2a53-3076-b21f-d078b89fb4fb.json b/test/data/enm/study-NWKI-bf2c9635-9a3d-4781-bca7-3c1f86ea0cba.json
index 24c9abe..24c9abe 100644
--- a/test/data/enm/study-NWKI-37a99dad-2a53-3076-b21f-d078b89fb4fb.json
+++ b/test/data/enm/study-NWKI-bf2c9635-9a3d-4781-bca7-3c1f86ea0cba.json
diff --git a/test/data/enm/study-NWKI-bf93fd51-2b80-4693-9538-e973ec01fdd2.json b/test/data/enm/study-NWKI-bf93fd51-2b80-4693-9538-e973ec01fdd2.json
new file mode 100644
index 0000000..bf76743
--- /dev/null
+++ b/test/data/enm/study-NWKI-bf93fd51-2b80-4693-9538-e973ec01fdd2.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-bf93fd51-2b80-4693-9538-e973ec01fdd2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 102
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-bfe29db1-dc25-4f4d-8f01-2dc81a86c3ed.json b/test/data/enm/study-NWKI-bfe29db1-dc25-4f4d-8f01-2dc81a86c3ed.json
new file mode 100644
index 0000000..aadd8e4
--- /dev/null
+++ b/test/data/enm/study-NWKI-bfe29db1-dc25-4f4d-8f01-2dc81a86c3ed.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-bfe29db1-dc25-4f4d-8f01-2dc81a86c3ed",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 102
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c00c3206-3fd1-4ed3-a9f7-4b1374927387.json b/test/data/enm/study-NWKI-c00c3206-3fd1-4ed3-a9f7-4b1374927387.json
new file mode 100644
index 0000000..95471cf
--- /dev/null
+++ b/test/data/enm/study-NWKI-c00c3206-3fd1-4ed3-a9f7-4b1374927387.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c00c3206-3fd1-4ed3-a9f7-4b1374927387",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-438d1468-d5d7-3977-9dab-15a3a05add38"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e0386856-5e55-330a-9b5e-364c00de2f2b.json b/test/data/enm/study-NWKI-c0ad98c0-9298-490c-ae70-a1a9a015d197.json
index dd4d0a6..dd4d0a6 100644
--- a/test/data/enm/study-NWKI-e0386856-5e55-330a-9b5e-364c00de2f2b.json
+++ b/test/data/enm/study-NWKI-c0ad98c0-9298-490c-ae70-a1a9a015d197.json
diff --git a/test/data/enm/study-NWKI-c0b96f94-f4be-4ef2-8626-e84110817c99.json b/test/data/enm/study-NWKI-c0b96f94-f4be-4ef2-8626-e84110817c99.json
new file mode 100644
index 0000000..f0c0f04
--- /dev/null
+++ b/test/data/enm/study-NWKI-c0b96f94-f4be-4ef2-8626-e84110817c99.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-c0b96f94-f4be-4ef2-8626-e84110817c99",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "O=CO[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "COOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c0c037fe-f4fb-4abc-9969-0dc3e4006d91.json b/test/data/enm/study-NWKI-c0c037fe-f4fb-4abc-9969-0dc3e4006d91.json
new file mode 100644
index 0000000..88332db
--- /dev/null
+++ b/test/data/enm/study-NWKI-c0c037fe-f4fb-4abc-9969-0dc3e4006d91.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-c0c037fe-f4fb-4abc-9969-0dc3e4006d91",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5ae4ae3d-db28-3647-9a7a-0c2e3d8076aa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 20,
+        "upQualifier": "<=",
+        "upValue": 60
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c0ef8f7c-d2d0-4048-ac36-008db15fd81c.json b/test/data/enm/study-NWKI-c0ef8f7c-d2d0-4048-ac36-008db15fd81c.json
new file mode 100644
index 0000000..d4ff1ed
--- /dev/null
+++ b/test/data/enm/study-NWKI-c0ef8f7c-d2d0-4048-ac36-008db15fd81c.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-c0ef8f7c-d2d0-4048-ac36-008db15fd81c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-895a506b-c331-3576-bf9e-cbcde5822c11"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "cMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c1234f21-498a-475e-872e-24a5202362ab.json b/test/data/enm/study-NWKI-c1234f21-498a-475e-872e-24a5202362ab.json
new file mode 100644
index 0000000..5c8b25b
--- /dev/null
+++ b/test/data/enm/study-NWKI-c1234f21-498a-475e-872e-24a5202362ab.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c1234f21-498a-475e-872e-24a5202362ab",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c1478b66-7fc6-4181-ad1e-cb95b0d84dca.json b/test/data/enm/study-NWKI-c1478b66-7fc6-4181-ad1e-cb95b0d84dca.json
new file mode 100644
index 0000000..ec3e28d
--- /dev/null
+++ b/test/data/enm/study-NWKI-c1478b66-7fc6-4181-ad1e-cb95b0d84dca.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-c1478b66-7fc6-4181-ad1e-cb95b0d84dca",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b110d018-6de0-303b-afcc-6a5e1f5911aa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 132
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c15e1b66-8c5c-4c14-bc32-cc68e87e3ca1.json b/test/data/enm/study-NWKI-c15e1b66-8c5c-4c14-bc32-cc68e87e3ca1.json
new file mode 100644
index 0000000..0db759a
--- /dev/null
+++ b/test/data/enm/study-NWKI-c15e1b66-8c5c-4c14-bc32-cc68e87e3ca1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c15e1b66-8c5c-4c14-bc32-cc68e87e3ca1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9fb12a3a-3a26-3f95-82ed-371f58d92dfe.json b/test/data/enm/study-NWKI-c186d7c2-0f51-4d53-969d-56fe3692dc68.json
index 3bb83fe..3bb83fe 100644
--- a/test/data/enm/study-NWKI-9fb12a3a-3a26-3f95-82ed-371f58d92dfe.json
+++ b/test/data/enm/study-NWKI-c186d7c2-0f51-4d53-969d-56fe3692dc68.json
diff --git a/test/data/enm/study-NWKI-c1ae6c51-2308-42fd-90c7-a73c8acb6fdc.json b/test/data/enm/study-NWKI-c1ae6c51-2308-42fd-90c7-a73c8acb6fdc.json
new file mode 100644
index 0000000..5ec5c79
--- /dev/null
+++ b/test/data/enm/study-NWKI-c1ae6c51-2308-42fd-90c7-a73c8acb6fdc.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c1ae6c51-2308-42fd-90c7-a73c8acb6fdc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c1bb1427-0626-4b72-896e-ab772919fce2.json b/test/data/enm/study-NWKI-c1bb1427-0626-4b72-896e-ab772919fce2.json
new file mode 100644
index 0000000..64cb638
--- /dev/null
+++ b/test/data/enm/study-NWKI-c1bb1427-0626-4b72-896e-ab772919fce2.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-c1bb1427-0626-4b72-896e-ab772919fce2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DSuccAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Ethylene_Diamine"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "NCCN"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Ethylene_Diamine"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c215b9a1-98b2-4937-8747-aec9b78f4ef4.json b/test/data/enm/study-NWKI-c215b9a1-98b2-4937-8747-aec9b78f4ef4.json
new file mode 100644
index 0000000..559560f
--- /dev/null
+++ b/test/data/enm/study-NWKI-c215b9a1-98b2-4937-8747-aec9b78f4ef4.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-c215b9a1-98b2-4937-8747-aec9b78f4ef4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "BiotinCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c2463846-6b9a-4c71-a4b3-dedea84d7645.json b/test/data/enm/study-NWKI-c2463846-6b9a-4c71-a4b3-dedea84d7645.json
new file mode 100644
index 0000000..2409d39
--- /dev/null
+++ b/test/data/enm/study-NWKI-c2463846-6b9a-4c71-a4b3-dedea84d7645.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c2463846-6b9a-4c71-a4b3-dedea84d7645",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c27eb7d0-84da-440c-a01a-4f42f78e80fe.json b/test/data/enm/study-NWKI-c27eb7d0-84da-440c-a01a-4f42f78e80fe.json
new file mode 100644
index 0000000..59df3f1
--- /dev/null
+++ b/test/data/enm/study-NWKI-c27eb7d0-84da-440c-a01a-4f42f78e80fe.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c27eb7d0-84da-440c-a01a-4f42f78e80fe",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 2000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 88
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c2f5256d-cedb-47c6-9caf-8dc827cf445f.json b/test/data/enm/study-NWKI-c2f5256d-cedb-47c6-9caf-8dc827cf445f.json
new file mode 100644
index 0000000..fd4aaf5
--- /dev/null
+++ b/test/data/enm/study-NWKI-c2f5256d-cedb-47c6-9caf-8dc827cf445f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c2f5256d-cedb-47c6-9caf-8dc827cf445f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "BET",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 300
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c327ffa8-dbc1-4ce7-813d-d595b6d2eba8.json b/test/data/enm/study-NWKI-c327ffa8-dbc1-4ce7-813d-d595b6d2eba8.json
new file mode 100644
index 0000000..0e59a9b
--- /dev/null
+++ b/test/data/enm/study-NWKI-c327ffa8-dbc1-4ce7-813d-d595b6d2eba8.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c327ffa8-dbc1-4ce7-813d-d595b6d2eba8",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6.25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ad44f58f-8080-3017-9f8d-485fad044849.json b/test/data/enm/study-NWKI-c333c3a5-ccab-4104-af6d-dc079e051b30.json
index 6744ecb..6744ecb 100644
--- a/test/data/enm/study-NWKI-ad44f58f-8080-3017-9f8d-485fad044849.json
+++ b/test/data/enm/study-NWKI-c333c3a5-ccab-4104-af6d-dc079e051b30.json
diff --git a/test/data/enm/study-NWKI-c363d3ac-5a15-4fb4-a84c-c04fc482857a.json b/test/data/enm/study-NWKI-c363d3ac-5a15-4fb4-a84c-c04fc482857a.json
new file mode 100644
index 0000000..8206e28
--- /dev/null
+++ b/test/data/enm/study-NWKI-c363d3ac-5a15-4fb4-a84c-c04fc482857a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-c363d3ac-5a15-4fb4-a84c-c04fc482857a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-666817c2-87cb-3826-92f8-e79a7b37957d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Mean Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c42bcc42-46a4-4f5a-8ada-254aa78f8c67.json b/test/data/enm/study-NWKI-c42bcc42-46a4-4f5a-8ada-254aa78f8c67.json
new file mode 100644
index 0000000..8847669
--- /dev/null
+++ b/test/data/enm/study-NWKI-c42bcc42-46a4-4f5a-8ada-254aa78f8c67.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c42bcc42-46a4-4f5a-8ada-254aa78f8c67",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c4a6e3f7-9b6d-4a08-9a7b-2371e6d964d7.json b/test/data/enm/study-NWKI-c4a6e3f7-9b6d-4a08-9a7b-2371e6d964d7.json
new file mode 100644
index 0000000..e51d487
--- /dev/null
+++ b/test/data/enm/study-NWKI-c4a6e3f7-9b6d-4a08-9a7b-2371e6d964d7.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-c4a6e3f7-9b6d-4a08-9a7b-2371e6d964d7",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -12.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a32cb420-7aa2-3130-9612-edfe833d83fc.json b/test/data/enm/study-NWKI-c4ab521d-9cd7-4933-b4aa-e881f92846a8.json
index ca639b9..ca639b9 100644
--- a/test/data/enm/study-NWKI-a32cb420-7aa2-3130-9612-edfe833d83fc.json
+++ b/test/data/enm/study-NWKI-c4ab521d-9cd7-4933-b4aa-e881f92846a8.json
diff --git a/test/data/enm/study-NWKI-c4b706f3-7240-4d55-9642-56dbc3083ce6.json b/test/data/enm/study-NWKI-c4b706f3-7240-4d55-9642-56dbc3083ce6.json
new file mode 100644
index 0000000..1fda38b
--- /dev/null
+++ b/test/data/enm/study-NWKI-c4b706f3-7240-4d55-9642-56dbc3083ce6.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c4b706f3-7240-4d55-9642-56dbc3083ce6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cc55dabc-3794-3853-9cf1-1e0bcf31fb69"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "TEM",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 27.2,
+        "errorValue": 3.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c4d59b68-76c2-4d23-85af-6b8a34e09c6e.json b/test/data/enm/study-NWKI-c4d59b68-76c2-4d23-85af-6b8a34e09c6e.json
new file mode 100644
index 0000000..70c8a00
--- /dev/null
+++ b/test/data/enm/study-NWKI-c4d59b68-76c2-4d23-85af-6b8a34e09c6e.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c4d59b68-76c2-4d23-85af-6b8a34e09c6e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4e021275-ae4e-3d24-bdb8-40c6d8d9d6fc.json b/test/data/enm/study-NWKI-c4fd9f71-f95f-4a63-b75b-0e545eeb6199.json
index 248bb9d..248bb9d 100644
--- a/test/data/enm/study-NWKI-4e021275-ae4e-3d24-bdb8-40c6d8d9d6fc.json
+++ b/test/data/enm/study-NWKI-c4fd9f71-f95f-4a63-b75b-0e545eeb6199.json
diff --git a/test/data/enm/study-NWKI-c3ff049e-e72a-35fe-9bbf-77f018259d63.json b/test/data/enm/study-NWKI-c54c86ac-49f3-4655-9faf-4055521df1e8.json
index 8c9efc2..8c9efc2 100644
--- a/test/data/enm/study-NWKI-c3ff049e-e72a-35fe-9bbf-77f018259d63.json
+++ b/test/data/enm/study-NWKI-c54c86ac-49f3-4655-9faf-4055521df1e8.json
diff --git a/test/data/enm/study-NWKI-f6f54a71-9459-397b-b0f7-b27538cff042.json b/test/data/enm/study-NWKI-c55f2582-d7a3-4263-aac5-8b336397ca1c.json
index 05a9dd3..05a9dd3 100644
--- a/test/data/enm/study-NWKI-f6f54a71-9459-397b-b0f7-b27538cff042.json
+++ b/test/data/enm/study-NWKI-c55f2582-d7a3-4263-aac5-8b336397ca1c.json
diff --git a/test/data/enm/study-NWKI-c572805a-4c79-4717-8365-b8f801d9901a.json b/test/data/enm/study-NWKI-c572805a-4c79-4717-8365-b8f801d9901a.json
new file mode 100644
index 0000000..007dd12
--- /dev/null
+++ b/test/data/enm/study-NWKI-c572805a-4c79-4717-8365-b8f801d9901a.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-c572805a-4c79-4717-8365-b8f801d9901a",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-5172b34a-a6f6-398f-ace6-1d30e6bc9efa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 74
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c5820914-4974-473c-84f0-7795422f6ae2.json b/test/data/enm/study-NWKI-c5820914-4974-473c-84f0-7795422f6ae2.json
new file mode 100644
index 0000000..d476323
--- /dev/null
+++ b/test/data/enm/study-NWKI-c5820914-4974-473c-84f0-7795422f6ae2.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-c5820914-4974-473c-84f0-7795422f6ae2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82c12809-d7af-3061-a531-1db744c521f0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c62b9663-f3c5-446d-9096-d7cd0c27a11f.json b/test/data/enm/study-NWKI-c62b9663-f3c5-446d-9096-d7cd0c27a11f.json
new file mode 100644
index 0000000..ea1abe5
--- /dev/null
+++ b/test/data/enm/study-NWKI-c62b9663-f3c5-446d-9096-d7cd0c27a11f.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-c62b9663-f3c5-446d-9096-d7cd0c27a11f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 64,
+        "errorValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-369d200e-2bfc-392d-ae00-ceb41fabd459.json b/test/data/enm/study-NWKI-c645880a-bdc5-42fe-acc0-6952484b5edb.json
index 937ed87..937ed87 100644
--- a/test/data/enm/study-NWKI-369d200e-2bfc-392d-ae00-ceb41fabd459.json
+++ b/test/data/enm/study-NWKI-c645880a-bdc5-42fe-acc0-6952484b5edb.json
diff --git a/test/data/enm/study-NWKI-c65ca657-472d-4e5b-a8ad-ca5d8b33d057.json b/test/data/enm/study-NWKI-c65ca657-472d-4e5b-a8ad-ca5d8b33d057.json
new file mode 100644
index 0000000..ec3b920
--- /dev/null
+++ b/test/data/enm/study-NWKI-c65ca657-472d-4e5b-a8ad-ca5d8b33d057.json
@@ -0,0 +1,93 @@
+{
+  "uuid": "NWKI-c65ca657-472d-4e5b-a8ad-ca5d8b33d057",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c8d9772c-e50e-3c71-986c-e45692150d71"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "COOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "O=CO[H]"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "COOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ef8660fd-e624-3a94-91bc-ad5a6e47bcf3.json b/test/data/enm/study-NWKI-c6ca1bd3-e533-4859-92a8-d494ba6b7a08.json
index 8178033..8178033 100644
--- a/test/data/enm/study-NWKI-ef8660fd-e624-3a94-91bc-ad5a6e47bcf3.json
+++ b/test/data/enm/study-NWKI-c6ca1bd3-e533-4859-92a8-d494ba6b7a08.json
diff --git a/test/data/enm/study-NWKI-c6fe8e37-e6f1-44d8-8a80-99c26d6b73ca.json b/test/data/enm/study-NWKI-c6fe8e37-e6f1-44d8-8a80-99c26d6b73ca.json
new file mode 100644
index 0000000..9122964
--- /dev/null
+++ b/test/data/enm/study-NWKI-c6fe8e37-e6f1-44d8-8a80-99c26d6b73ca.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-c6fe8e37-e6f1-44d8-8a80-99c26d6b73ca",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82bed004-9895-3bdf-822f-0b9906d2ee06"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe2O3"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe2O3"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DDArg7COOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "D-2DArginine-2D7-2DCOOH"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "D-2DArginine-2D7-2DCOOH"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c74426f1-d3f0-47f1-9dab-39c735b1d5db.json b/test/data/enm/study-NWKI-c74426f1-d3f0-47f1-9dab-39c735b1d5db.json
new file mode 100644
index 0000000..a718c87
--- /dev/null
+++ b/test/data/enm/study-NWKI-c74426f1-d3f0-47f1-9dab-39c735b1d5db.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-c74426f1-d3f0-47f1-9dab-39c735b1d5db",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3e42f6e5-635a-3f1e-a51a-39ce26751ec9"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d3c8fab1-762e-32b8-a46e-cf4158f8ec49.json b/test/data/enm/study-NWKI-c7865053-f199-4816-9f79-de2f3d849b70.json
index 0c3ef69..0c3ef69 100644
--- a/test/data/enm/study-NWKI-d3c8fab1-762e-32b8-a46e-cf4158f8ec49.json
+++ b/test/data/enm/study-NWKI-c7865053-f199-4816-9f79-de2f3d849b70.json
diff --git a/test/data/enm/study-NWKI-c7a4a433-7264-40b6-8aaf-20f0c90e5fa4.json b/test/data/enm/study-NWKI-c7a4a433-7264-40b6-8aaf-20f0c90e5fa4.json
new file mode 100644
index 0000000..1b9d747
--- /dev/null
+++ b/test/data/enm/study-NWKI-c7a4a433-7264-40b6-8aaf-20f0c90e5fa4.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-c7a4a433-7264-40b6-8aaf-20f0c90e5fa4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-cc55dabc-3794-3853-9cf1-1e0bcf31fb69"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -58
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-438d1468-d5d7-3977-9dab-15a3a05add38.json b/test/data/enm/study-NWKI-c7a9d6f8-0d62-4aa7-b9e4-611475a74e48.json
index 70f71be..70f71be 100644
--- a/test/data/enm/study-NWKI-438d1468-d5d7-3977-9dab-15a3a05add38.json
+++ b/test/data/enm/study-NWKI-c7a9d6f8-0d62-4aa7-b9e4-611475a74e48.json
diff --git a/test/data/enm/study-NWKI-afc33b0f-f6ce-3c1b-8a3d-cede13515323.json b/test/data/enm/study-NWKI-c7ab52cf-dcbf-4b3a-b246-25604905b5c6.json
index 9668dd8..9668dd8 100644
--- a/test/data/enm/study-NWKI-afc33b0f-f6ce-3c1b-8a3d-cede13515323.json
+++ b/test/data/enm/study-NWKI-c7ab52cf-dcbf-4b3a-b246-25604905b5c6.json
diff --git a/test/data/enm/study-NWKI-3b09fdd1-3024-3be3-b1c6-332b44f75f99.json b/test/data/enm/study-NWKI-c7f84ccb-8474-4b7c-8674-aa196eac6741.json
index 5dabca5..5dabca5 100644
--- a/test/data/enm/study-NWKI-3b09fdd1-3024-3be3-b1c6-332b44f75f99.json
+++ b/test/data/enm/study-NWKI-c7f84ccb-8474-4b7c-8674-aa196eac6741.json
diff --git a/test/data/enm/study-NWKI-c8075a01-07fe-4205-b282-e58f993175ab.json b/test/data/enm/study-NWKI-c8075a01-07fe-4205-b282-e58f993175ab.json
new file mode 100644
index 0000000..30a1e03
--- /dev/null
+++ b/test/data/enm/study-NWKI-c8075a01-07fe-4205-b282-e58f993175ab.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c8075a01-07fe-4205-b282-e58f993175ab",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-5f88a526-3e3f-3da5-8082-8d1da0cdfefa.json b/test/data/enm/study-NWKI-c8207d31-f8f9-48db-ba39-15668b625d56.json
index cbc8c02..cbc8c02 100644
--- a/test/data/enm/study-NWKI-5f88a526-3e3f-3da5-8082-8d1da0cdfefa.json
+++ b/test/data/enm/study-NWKI-c8207d31-f8f9-48db-ba39-15668b625d56.json
diff --git a/test/data/enm/study-NWKI-ed06c39e-c7f2-3173-bd74-35b8257544b5.json b/test/data/enm/study-NWKI-c84603a4-4444-4b84-b8e8-c7f3ca1c0bf0.json
index 58d38c8..58d38c8 100644
--- a/test/data/enm/study-NWKI-ed06c39e-c7f2-3173-bd74-35b8257544b5.json
+++ b/test/data/enm/study-NWKI-c84603a4-4444-4b84-b8e8-c7f3ca1c0bf0.json
diff --git a/test/data/enm/study-NWKI-c864edd3-9ac3-4f4a-bbd6-ba8038476061.json b/test/data/enm/study-NWKI-c864edd3-9ac3-4f4a-bbd6-ba8038476061.json
new file mode 100644
index 0000000..ed4cb96
--- /dev/null
+++ b/test/data/enm/study-NWKI-c864edd3-9ac3-4f4a-bbd6-ba8038476061.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c864edd3-9ac3-4f4a-bbd6-ba8038476061",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a2d5a729-4ed1-3f1b-a5fd-3bd090a48aa5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn301622h",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 206,
+        "errorValue": 16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c8c7a34c-83af-4fe7-a02c-0a417ab17eea.json b/test/data/enm/study-NWKI-c8c7a34c-83af-4fe7-a02c-0a417ab17eea.json
new file mode 100644
index 0000000..896ef13
--- /dev/null
+++ b/test/data/enm/study-NWKI-c8c7a34c-83af-4fe7-a02c-0a417ab17eea.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-c8c7a34c-83af-4fe7-a02c-0a417ab17eea",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0494174f-9fc2-3296-8ffb-4fadaceb0348"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -11.9,
+        "errorValue": 1.61
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c8d35a03-2511-4004-a35b-70ca09de5d0c.json b/test/data/enm/study-NWKI-c8d35a03-2511-4004-a35b-70ca09de5d0c.json
new file mode 100644
index 0000000..bea2fcf
--- /dev/null
+++ b/test/data/enm/study-NWKI-c8d35a03-2511-4004-a35b-70ca09de5d0c.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-c8d35a03-2511-4004-a35b-70ca09de5d0c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 7000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 74.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c8f1ee43-48b3-4305-b131-8bd700da8beb.json b/test/data/enm/study-NWKI-c8f1ee43-48b3-4305-b131-8bd700da8beb.json
new file mode 100644
index 0000000..972e935
--- /dev/null
+++ b/test/data/enm/study-NWKI-c8f1ee43-48b3-4305-b131-8bd700da8beb.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-c8f1ee43-48b3-4305-b131-8bd700da8beb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-45fc0568-39f3-33f2-bd68-f953733c0c96.json b/test/data/enm/study-NWKI-c8fbf5fb-579e-4848-9157-f0ab7864a30d.json
index f5c86e4..f5c86e4 100644
--- a/test/data/enm/study-NWKI-45fc0568-39f3-33f2-bd68-f953733c0c96.json
+++ b/test/data/enm/study-NWKI-c8fbf5fb-579e-4848-9157-f0ab7864a30d.json
diff --git a/test/data/enm/study-NWKI-ae0be5b8-266b-3b6a-825d-55f14b51cc99.json b/test/data/enm/study-NWKI-c9a98eea-c9b4-485b-891f-e715ffbe4792.json
index 23b718e..23b718e 100644
--- a/test/data/enm/study-NWKI-ae0be5b8-266b-3b6a-825d-55f14b51cc99.json
+++ b/test/data/enm/study-NWKI-c9a98eea-c9b4-485b-891f-e715ffbe4792.json
diff --git a/test/data/enm/study-NWKI-c9b7dc82-8a66-49fb-8374-769b7beb12d5.json b/test/data/enm/study-NWKI-c9b7dc82-8a66-49fb-8374-769b7beb12d5.json
new file mode 100644
index 0000000..d8508f0
--- /dev/null
+++ b/test/data/enm/study-NWKI-c9b7dc82-8a66-49fb-8374-769b7beb12d5.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-c9b7dc82-8a66-49fb-8374-769b7beb12d5",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-82bed004-9895-3bdf-822f-0b9906d2ee06"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DDArg7COOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ca3d7a1a-7879-4241-b1da-bdf2fba9e10f.json b/test/data/enm/study-NWKI-ca3d7a1a-7879-4241-b1da-bdf2fba9e10f.json
new file mode 100644
index 0000000..f0807b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-ca3d7a1a-7879-4241-b1da-bdf2fba9e10f.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-ca3d7a1a-7879-4241-b1da-bdf2fba9e10f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        },
+        "pH": {
+          "loValue": 8.12
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ca5604bc-2495-46fd-9dd5-9a6ad63058f6.json b/test/data/enm/study-NWKI-ca5604bc-2495-46fd-9dd5-9a6ad63058f6.json
new file mode 100644
index 0000000..6f0a982
--- /dev/null
+++ b/test/data/enm/study-NWKI-ca5604bc-2495-46fd-9dd5-9a6ad63058f6.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-ca5604bc-2495-46fd-9dd5-9a6ad63058f6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DPEG-2DED-2DVT750"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ca95fac8-a830-415a-8228-5640a8690cba.json b/test/data/enm/study-NWKI-ca95fac8-a830-415a-8228-5640a8690cba.json
new file mode 100644
index 0000000..dd0f0db
--- /dev/null
+++ b/test/data/enm/study-NWKI-ca95fac8-a830-415a-8228-5640a8690cba.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-ca95fac8-a830-415a-8228-5640a8690cba",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-984a9c7f-2372-3b8f-9ff5-93a9f94f2eb7"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn202116p",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -13.2,
+        "errorValue": 1.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cac867ed-e155-4f41-b9d5-1f5d0b4fe602.json b/test/data/enm/study-NWKI-cac867ed-e155-4f41-b9d5-1f5d0b4fe602.json
new file mode 100644
index 0000000..39f220f
--- /dev/null
+++ b/test/data/enm/study-NWKI-cac867ed-e155-4f41-b9d5-1f5d0b4fe602.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-cac867ed-e155-4f41-b9d5-1f5d0b4fe602",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 200,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cae065a9-5659-4188-a9f1-c0992c8f9148.json b/test/data/enm/study-NWKI-cae065a9-5659-4188-a9f1-c0992c8f9148.json
new file mode 100644
index 0000000..6e20d3f
--- /dev/null
+++ b/test/data/enm/study-NWKI-cae065a9-5659-4188-a9f1-c0992c8f9148.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-cae065a9-5659-4188-a9f1-c0992c8f9148",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e6ef5597-a3f9-3f21-afff-db5f654ef534"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cb2fb3aa-2d41-467d-897a-48c64f399e43.json b/test/data/enm/study-NWKI-cb2fb3aa-2d41-467d-897a-48c64f399e43.json
new file mode 100644
index 0000000..51ce754
--- /dev/null
+++ b/test/data/enm/study-NWKI-cb2fb3aa-2d41-467d-897a-48c64f399e43.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-cb2fb3aa-2d41-467d-897a-48c64f399e43",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 8
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-41e63d70-d7c0-3bd2-9a65-e99dcdedb1a5.json b/test/data/enm/study-NWKI-cb6f500d-8d1c-4196-94b8-1a8b9bcd30f6.json
index e72a4ec..e72a4ec 100644
--- a/test/data/enm/study-NWKI-41e63d70-d7c0-3bd2-9a65-e99dcdedb1a5.json
+++ b/test/data/enm/study-NWKI-cb6f500d-8d1c-4196-94b8-1a8b9bcd30f6.json
diff --git a/test/data/enm/study-NWKI-7998492c-3902-3cc2-9f92-cdfae53cfc02.json b/test/data/enm/study-NWKI-cc5b881d-450b-46a0-acf0-0b59464a24f8.json
index be600a7..be600a7 100644
--- a/test/data/enm/study-NWKI-7998492c-3902-3cc2-9f92-cdfae53cfc02.json
+++ b/test/data/enm/study-NWKI-cc5b881d-450b-46a0-acf0-0b59464a24f8.json
diff --git a/test/data/enm/study-NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92.json b/test/data/enm/study-NWKI-cd054b32-9679-4de6-9770-3e0b6935bd20.json
index da53f89..da53f89 100644
--- a/test/data/enm/study-NWKI-b14e37d1-8dbb-36d7-925c-4093c91a0e92.json
+++ b/test/data/enm/study-NWKI-cd054b32-9679-4de6-9770-3e0b6935bd20.json
diff --git a/test/data/enm/study-NWKI-cd0f4a3a-377f-456a-b142-1f5d7726f318.json b/test/data/enm/study-NWKI-cd0f4a3a-377f-456a-b142-1f5d7726f318.json
new file mode 100644
index 0000000..f5afc15
--- /dev/null
+++ b/test/data/enm/study-NWKI-cd0f4a3a-377f-456a-b142-1f5d7726f318.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-cd0f4a3a-377f-456a-b142-1f5d7726f318",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-666817c2-87cb-3826-92f8-e79a7b37957d"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cd4bbc5e-2a02-47f5-be5c-c2cb8d013a8b.json b/test/data/enm/study-NWKI-cd4bbc5e-2a02-47f5-be5c-c2cb8d013a8b.json
new file mode 100644
index 0000000..711faee
--- /dev/null
+++ b/test/data/enm/study-NWKI-cd4bbc5e-2a02-47f5-be5c-c2cb8d013a8b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-cd4bbc5e-2a02-47f5-be5c-c2cb8d013a8b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-18aebb90-aacb-3e15-b516-4d3683e9c27b.json b/test/data/enm/study-NWKI-cddd50dd-d01f-41e3-8223-bf8bb3f790d9.json
index 963ad90..963ad90 100644
--- a/test/data/enm/study-NWKI-18aebb90-aacb-3e15-b516-4d3683e9c27b.json
+++ b/test/data/enm/study-NWKI-cddd50dd-d01f-41e3-8223-bf8bb3f790d9.json
diff --git a/test/data/enm/study-NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861.json b/test/data/enm/study-NWKI-ce2bfbe2-1161-4c0e-ba26-281cd1f4c497.json
index 9b2555a..9b2555a 100644
--- a/test/data/enm/study-NWKI-cfea3b7c-ee39-34ef-8349-16b1e7825861.json
+++ b/test/data/enm/study-NWKI-ce2bfbe2-1161-4c0e-ba26-281cd1f4c497.json
diff --git a/test/data/enm/study-NWKI-e373781b-461e-35dd-ae27-4169b7d743af.json b/test/data/enm/study-NWKI-ce2e0558-33d9-4205-bf48-b1f053a73a96.json
index 481f5bc..481f5bc 100644
--- a/test/data/enm/study-NWKI-e373781b-461e-35dd-ae27-4169b7d743af.json
+++ b/test/data/enm/study-NWKI-ce2e0558-33d9-4205-bf48-b1f053a73a96.json
diff --git a/test/data/enm/study-NWKI-895a506b-c331-3576-bf9e-cbcde5822c11.json b/test/data/enm/study-NWKI-ce622deb-7190-4284-a5e1-eee219c4d6b0.json
index 74ae839..74ae839 100644
--- a/test/data/enm/study-NWKI-895a506b-c331-3576-bf9e-cbcde5822c11.json
+++ b/test/data/enm/study-NWKI-ce622deb-7190-4284-a5e1-eee219c4d6b0.json
diff --git a/test/data/enm/study-NWKI-ce6412b4-8280-4c33-8930-d44cf9813219.json b/test/data/enm/study-NWKI-ce6412b4-8280-4c33-8930-d44cf9813219.json
new file mode 100644
index 0000000..91955de
--- /dev/null
+++ b/test/data/enm/study-NWKI-ce6412b4-8280-4c33-8930-d44cf9813219.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-ce6412b4-8280-4c33-8930-d44cf9813219",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93a9eb3-83df-3522-b417-7b3a379054a6"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 280
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ce73ec54-2cbf-4476-add4-d2ad07ccc89f.json b/test/data/enm/study-NWKI-ce73ec54-2cbf-4476-add4-d2ad07ccc89f.json
new file mode 100644
index 0000000..7e7a773
--- /dev/null
+++ b/test/data/enm/study-NWKI-ce73ec54-2cbf-4476-add4-d2ad07ccc89f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-ce73ec54-2cbf-4476-add4-d2ad07ccc89f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-2581f636-c16f-3680-9b3a-2bf0c8cab0b1.json b/test/data/enm/study-NWKI-ce97c205-4d65-4d45-8c55-00427a250663.json
index ecb3486..ecb3486 100644
--- a/test/data/enm/study-NWKI-2581f636-c16f-3680-9b3a-2bf0c8cab0b1.json
+++ b/test/data/enm/study-NWKI-ce97c205-4d65-4d45-8c55-00427a250663.json
diff --git a/test/data/enm/study-NWKI-33eda014-7b69-358a-93f0-e0ceef166a52.json b/test/data/enm/study-NWKI-cf25b134-5092-45c7-b48f-807252da6799.json
index c067ed9..c067ed9 100644
--- a/test/data/enm/study-NWKI-33eda014-7b69-358a-93f0-e0ceef166a52.json
+++ b/test/data/enm/study-NWKI-cf25b134-5092-45c7-b48f-807252da6799.json
diff --git a/test/data/enm/study-NWKI-6b1b44fa-70c1-3034-9c4b-7efb334762e0.json b/test/data/enm/study-NWKI-cf2e640c-3ae5-4149-bd89-81fe25149e93.json
index 3d47bf2..3d47bf2 100644
--- a/test/data/enm/study-NWKI-6b1b44fa-70c1-3034-9c4b-7efb334762e0.json
+++ b/test/data/enm/study-NWKI-cf2e640c-3ae5-4149-bd89-81fe25149e93.json
diff --git a/test/data/enm/study-NWKI-cf538ea0-cd50-4731-88f6-fccfee1145ad.json b/test/data/enm/study-NWKI-cf538ea0-cd50-4731-88f6-fccfee1145ad.json
new file mode 100644
index 0000000..e1646bf
--- /dev/null
+++ b/test/data/enm/study-NWKI-cf538ea0-cd50-4731-88f6-fccfee1145ad.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-cf538ea0-cd50-4731-88f6-fccfee1145ad",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 221,
+        "errorValue": 0.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cf70e3af-ea76-4f8d-87cf-e51296a88be4.json b/test/data/enm/study-NWKI-cf70e3af-ea76-4f8d-87cf-e51296a88be4.json
new file mode 100644
index 0000000..38562b8
--- /dev/null
+++ b/test/data/enm/study-NWKI-cf70e3af-ea76-4f8d-87cf-e51296a88be4.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-cf70e3af-ea76-4f8d-87cf-e51296a88be4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-3d8aaa66-97d9-351b-9771-691300d5e97c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Specific Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-cc55dabc-3794-3853-9cf1-1e0bcf31fb69.json b/test/data/enm/study-NWKI-cfd7a3eb-b360-4bac-9b3e-16b4698b9103.json
index 8f54c49..8f54c49 100644
--- a/test/data/enm/study-NWKI-cc55dabc-3794-3853-9cf1-1e0bcf31fb69.json
+++ b/test/data/enm/study-NWKI-cfd7a3eb-b360-4bac-9b3e-16b4698b9103.json
diff --git a/test/data/enm/study-NWKI-1af17b5b-947a-3fd2-a000-cadf542dea4d.json b/test/data/enm/study-NWKI-d01537d1-37be-4bd6-904e-f63663b50e3f.json
index 6fea173..6fea173 100644
--- a/test/data/enm/study-NWKI-1af17b5b-947a-3fd2-a000-cadf542dea4d.json
+++ b/test/data/enm/study-NWKI-d01537d1-37be-4bd6-904e-f63663b50e3f.json
diff --git a/test/data/enm/study-NWKI-d03c4839-a764-49e5-9117-f1f25c396c3e.json b/test/data/enm/study-NWKI-d03c4839-a764-49e5-9117-f1f25c396c3e.json
new file mode 100644
index 0000000..06b3699
--- /dev/null
+++ b/test/data/enm/study-NWKI-d03c4839-a764-49e5-9117-f1f25c396c3e.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-d03c4839-a764-49e5-9117-f1f25c396c3e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 45
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466.json b/test/data/enm/study-NWKI-d09421ea-de27-446c-8dd4-c475e3a51de7.json
index 034d299..034d299 100644
--- a/test/data/enm/study-NWKI-e5b618fd-dd48-3562-9a55-737ac7a68466.json
+++ b/test/data/enm/study-NWKI-d09421ea-de27-446c-8dd4-c475e3a51de7.json
diff --git a/test/data/enm/study-NWKI-e0ffe4e6-978c-367d-a011-bd700587c9fe.json b/test/data/enm/study-NWKI-d09c69c6-09df-4b84-952f-ba478fa185fd.json
index 32be288..32be288 100644
--- a/test/data/enm/study-NWKI-e0ffe4e6-978c-367d-a011-bd700587c9fe.json
+++ b/test/data/enm/study-NWKI-d09c69c6-09df-4b84-952f-ba478fa185fd.json
diff --git a/test/data/enm/study-NWKI-666817c2-87cb-3826-92f8-e79a7b37957d.json b/test/data/enm/study-NWKI-d17c12f1-7406-4114-82b4-2e1bc70fb96f.json
index 2d49af7..2d49af7 100644
--- a/test/data/enm/study-NWKI-666817c2-87cb-3826-92f8-e79a7b37957d.json
+++ b/test/data/enm/study-NWKI-d17c12f1-7406-4114-82b4-2e1bc70fb96f.json
diff --git a/test/data/enm/study-NWKI-d19e51b2-561d-460c-8614-c85e7e887e92.json b/test/data/enm/study-NWKI-d19e51b2-561d-460c-8614-c85e7e887e92.json
new file mode 100644
index 0000000..337d2a5
--- /dev/null
+++ b/test/data/enm/study-NWKI-d19e51b2-561d-460c-8614-c85e7e887e92.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-d19e51b2-561d-460c-8614-c85e7e887e92",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DGlutamicAcid"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f1cc0abb-2905-3699-be62-b238a21e6bad.json b/test/data/enm/study-NWKI-d1eaef56-d795-4c70-8af6-5c4da695891e.json
index 69831cf..69831cf 100644
--- a/test/data/enm/study-NWKI-f1cc0abb-2905-3699-be62-b238a21e6bad.json
+++ b/test/data/enm/study-NWKI-d1eaef56-d795-4c70-8af6-5c4da695891e.json
diff --git a/test/data/enm/study-NWKI-d21a01d9-18f0-4c76-ac87-ce5792d8a1f6.json b/test/data/enm/study-NWKI-d21a01d9-18f0-4c76-ac87-ce5792d8a1f6.json
new file mode 100644
index 0000000..939a7f5
--- /dev/null
+++ b/test/data/enm/study-NWKI-d21a01d9-18f0-4c76-ac87-ce5792d8a1f6.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-d21a01d9-18f0-4c76-ac87-ce5792d8a1f6",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d24f4f01-e311-4e37-a276-ee42155aa89f.json b/test/data/enm/study-NWKI-d24f4f01-e311-4e37-a276-ee42155aa89f.json
new file mode 100644
index 0000000..18cdcad
--- /dev/null
+++ b/test/data/enm/study-NWKI-d24f4f01-e311-4e37-a276-ee42155aa89f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-d24f4f01-e311-4e37-a276-ee42155aa89f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 100,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4832de65-5a92-3849-8061-729a2d83017e.json b/test/data/enm/study-NWKI-d32092e6-7b57-448b-b8d1-2c6b2eaf9e28.json
index 1889acd..1889acd 100644
--- a/test/data/enm/study-NWKI-4832de65-5a92-3849-8061-729a2d83017e.json
+++ b/test/data/enm/study-NWKI-d32092e6-7b57-448b-b8d1-2c6b2eaf9e28.json
diff --git a/test/data/enm/study-NWKI-2af8ed34-029d-3644-8327-23a596cfae0d.json b/test/data/enm/study-NWKI-d363ac4e-29fd-4673-9b2a-5dfc42af0fbc.json
index e46b0b5..e46b0b5 100644
--- a/test/data/enm/study-NWKI-2af8ed34-029d-3644-8327-23a596cfae0d.json
+++ b/test/data/enm/study-NWKI-d363ac4e-29fd-4673-9b2a-5dfc42af0fbc.json
diff --git a/test/data/enm/study-NWKI-82bed004-9895-3bdf-822f-0b9906d2ee06.json b/test/data/enm/study-NWKI-d37b40f8-aadf-497e-b6f0-13a752fc4839.json
index 8240bd9..8240bd9 100644
--- a/test/data/enm/study-NWKI-82bed004-9895-3bdf-822f-0b9906d2ee06.json
+++ b/test/data/enm/study-NWKI-d37b40f8-aadf-497e-b6f0-13a752fc4839.json
diff --git a/test/data/enm/study-NWKI-d3946e40-9b64-499d-9782-b80aaeba64d0.json b/test/data/enm/study-NWKI-d3946e40-9b64-499d-9782-b80aaeba64d0.json
new file mode 100644
index 0000000..c8fa752
--- /dev/null
+++ b/test/data/enm/study-NWKI-d3946e40-9b64-499d-9782-b80aaeba64d0.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-d3946e40-9b64-499d-9782-b80aaeba64d0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002167_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002167",
+      "title": "BAO_0002167 Genotoxicity Assay"
+    },
+    "endpoint": "DNA in Tail",
+    "guideline": [
+      "Fpg-2Dmodified Comet Assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Fpg-2Dmodified Comet Assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "DNA_in_Tail",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        },
+        "FPG Content": {
+          "loValue": 0
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d4333b24-64e1-448c-8b0a-880633a58698.json b/test/data/enm/study-NWKI-d4333b24-64e1-448c-8b0a-880633a58698.json
new file mode 100644
index 0000000..c79c708
--- /dev/null
+++ b/test/data/enm/study-NWKI-d4333b24-64e1-448c-8b0a-880633a58698.json
@@ -0,0 +1,92 @@
+{
+  "uuid": "NWKI-d4333b24-64e1-448c-8b0a-880633a58698",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": null,
+        "DESCRIPTION": null,
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  ",
+          "loValue": "Fe3O4"
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "CORE"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Fe3O4"
+      }
+    },
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DFITC-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "Cross-2Dlinked_dextran"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Cross-2Dlinked_dextran"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d47eb16a-4a2e-4b2e-9dde-a413623cd2e1.json b/test/data/enm/study-NWKI-d47eb16a-4a2e-4b2e-9dde-a413623cd2e1.json
new file mode 100644
index 0000000..5f5a5e8
--- /dev/null
+++ b/test/data/enm/study-NWKI-d47eb16a-4a2e-4b2e-9dde-a413623cd2e1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-d47eb16a-4a2e-4b2e-9dde-a413623cd2e1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d4e7916c-9c3c-439c-96e6-e7fde7d866a2.json b/test/data/enm/study-NWKI-d4e7916c-9c3c-439c-96e6-e7fde7d866a2.json
new file mode 100644
index 0000000..a8aef54
--- /dev/null
+++ b/test/data/enm/study-NWKI-d4e7916c-9c3c-439c-96e6-e7fde7d866a2.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-d4e7916c-9c3c-439c-96e6-e7fde7d866a2",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-61515bd0-5a80-3428-a093-01be1d677862"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 23.1,
+        "errorValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c05becdf-4b9b-3599-9922-89235b2e10da.json b/test/data/enm/study-NWKI-d4f7c4f3-c00a-4572-a2fa-5f174ec7d412.json
index 0f01f76..0f01f76 100644
--- a/test/data/enm/study-NWKI-c05becdf-4b9b-3599-9922-89235b2e10da.json
+++ b/test/data/enm/study-NWKI-d4f7c4f3-c00a-4572-a2fa-5f174ec7d412.json
diff --git a/test/data/enm/study-NWKI-d51a019b-52b5-4263-98aa-a3f9535c9db8.json b/test/data/enm/study-NWKI-d51a019b-52b5-4263-98aa-a3f9535c9db8.json
new file mode 100644
index 0000000..1cc6157
--- /dev/null
+++ b/test/data/enm/study-NWKI-d51a019b-52b5-4263-98aa-a3f9535c9db8.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-d51a019b-52b5-4263-98aa-a3f9535c9db8",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-d55980e2-2f36-417f-8243-9eb758f57dd3.json b/test/data/enm/study-NWKI-d55980e2-2f36-417f-8243-9eb758f57dd3.json
new file mode 100644
index 0000000..f5c7575
--- /dev/null
+++ b/test/data/enm/study-NWKI-d55980e2-2f36-417f-8243-9eb758f57dd3.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-d55980e2-2f36-417f-8243-9eb758f57dd3",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-9f46a2dd-dda3-3c99-81c0-8d904172c345.json b/test/data/enm/study-NWKI-d59c481d-eb03-4319-8994-a0e250e3edfe.json
index 1b11723..1b11723 100644
--- a/test/data/enm/study-NWKI-9f46a2dd-dda3-3c99-81c0-8d904172c345.json
+++ b/test/data/enm/study-NWKI-d59c481d-eb03-4319-8994-a0e250e3edfe.json
diff --git a/test/data/enm/study-NWKI-97a6970a-0e83-3890-ae6e-5e83b99c0325.json b/test/data/enm/study-NWKI-d5b02413-e80f-4df6-baa6-1da0cc43ef92.json
index 299fc2f..299fc2f 100644
--- a/test/data/enm/study-NWKI-97a6970a-0e83-3890-ae6e-5e83b99c0325.json
+++ b/test/data/enm/study-NWKI-d5b02413-e80f-4df6-baa6-1da0cc43ef92.json
diff --git a/test/data/enm/study-NWKI-d5b501c9-3b68-4aaa-ab10-597a10525c6b.json b/test/data/enm/study-NWKI-d5b501c9-3b68-4aaa-ab10-597a10525c6b.json
new file mode 100644
index 0000000..f0c3ca9
--- /dev/null
+++ b/test/data/enm/study-NWKI-d5b501c9-3b68-4aaa-ab10-597a10525c6b.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-d5b501c9-3b68-4aaa-ab10-597a10525c6b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "BiotinCoating"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "FITC"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "FITC"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-67b71fb2-85c1-3130-bd4e-84da8bc05fc9.json b/test/data/enm/study-NWKI-d5e6f259-f334-47d7-882b-339469b2d6c7.json
index 6d2e6ca..6d2e6ca 100644
--- a/test/data/enm/study-NWKI-67b71fb2-85c1-3130-bd4e-84da8bc05fc9.json
+++ b/test/data/enm/study-NWKI-d5e6f259-f334-47d7-882b-339469b2d6c7.json
diff --git a/test/data/enm/study-NWKI-a40c7554-4bd8-3938-82a9-bf9db1f7bc13.json b/test/data/enm/study-NWKI-d6228eb8-afa7-438c-92b2-d9b264aee538.json
index fcab7a7..fcab7a7 100644
--- a/test/data/enm/study-NWKI-a40c7554-4bd8-3938-82a9-bf9db1f7bc13.json
+++ b/test/data/enm/study-NWKI-d6228eb8-afa7-438c-92b2-d9b264aee538.json
diff --git a/test/data/enm/study-NWKI-d6634dea-1f89-439a-b8e2-14039dea0262.json b/test/data/enm/study-NWKI-d6634dea-1f89-439a-b8e2-14039dea0262.json
new file mode 100644
index 0000000..6e01994
--- /dev/null
+++ b/test/data/enm/study-NWKI-d6634dea-1f89-439a-b8e2-14039dea0262.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-d6634dea-1f89-439a-b8e2-14039dea0262",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-ea2bb63b-fd2a-32c2-a41a-d0280abaf29f"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loQualifier": ">=",
+        "loValue": 15,
+        "upQualifier": "<=",
+        "upValue": 90
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3d8aaa66-97d9-351b-9771-691300d5e97c.json b/test/data/enm/study-NWKI-d67ffc65-30bd-4fa7-8a1a-c2f9560de597.json
index 31da2d2..31da2d2 100644
--- a/test/data/enm/study-NWKI-3d8aaa66-97d9-351b-9771-691300d5e97c.json
+++ b/test/data/enm/study-NWKI-d67ffc65-30bd-4fa7-8a1a-c2f9560de597.json
diff --git a/test/data/enm/study-NWKI-5ae4ae3d-db28-3647-9a7a-0c2e3d8076aa.json b/test/data/enm/study-NWKI-d7937308-6dab-41ce-a8fc-7752c77293a2.json
index f146d6a..f146d6a 100644
--- a/test/data/enm/study-NWKI-5ae4ae3d-db28-3647-9a7a-0c2e3d8076aa.json
+++ b/test/data/enm/study-NWKI-d7937308-6dab-41ce-a8fc-7752c77293a2.json
diff --git a/test/data/enm/study-NWKI-5e5ed57f-33d3-39bb-9511-3604a0babf5e.json b/test/data/enm/study-NWKI-d7aafa0b-c408-44e1-b288-9a479cb3dca1.json
index 67738f0..67738f0 100644
--- a/test/data/enm/study-NWKI-5e5ed57f-33d3-39bb-9511-3604a0babf5e.json
+++ b/test/data/enm/study-NWKI-d7aafa0b-c408-44e1-b288-9a479cb3dca1.json
diff --git a/test/data/enm/study-NWKI-d80cd93a-4e4b-4957-a555-d6ef17f06b1b.json b/test/data/enm/study-NWKI-d80cd93a-4e4b-4957-a555-d6ef17f06b1b.json
new file mode 100644
index 0000000..febdd08
--- /dev/null
+++ b/test/data/enm/study-NWKI-d80cd93a-4e4b-4957-a555-d6ef17f06b1b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-d80cd93a-4e4b-4957-a555-d6ef17f06b1b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1000,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 70
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c93a144a-cd6d-3fe0-ab86-13adb168ccb1.json b/test/data/enm/study-NWKI-d8375116-28d0-4f57-84f8-91fe10910712.json
index d37ce18..d37ce18 100644
--- a/test/data/enm/study-NWKI-c93a144a-cd6d-3fe0-ab86-13adb168ccb1.json
+++ b/test/data/enm/study-NWKI-d8375116-28d0-4f57-84f8-91fe10910712.json
diff --git a/test/data/enm/study-NWKI-6cde234d-f073-3e1d-acd2-0ea10a01763f.json b/test/data/enm/study-NWKI-d8519fb8-dff7-4317-82e5-cdf3c99eeea8.json
index 060b909..060b909 100644
--- a/test/data/enm/study-NWKI-6cde234d-f073-3e1d-acd2-0ea10a01763f.json
+++ b/test/data/enm/study-NWKI-d8519fb8-dff7-4317-82e5-cdf3c99eeea8.json
diff --git a/test/data/enm/study-NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1.json b/test/data/enm/study-NWKI-d86e6d2d-7cb2-4b9d-b196-3d6188634cc1.json
index 2c1dd2e..2c1dd2e 100644
--- a/test/data/enm/study-NWKI-758c06ae-dc1f-3cbe-a409-91d14e5113d1.json
+++ b/test/data/enm/study-NWKI-d86e6d2d-7cb2-4b9d-b196-3d6188634cc1.json
diff --git a/test/data/enm/study-NWKI-08b685e5-70fa-39b5-87ad-092df4a60568.json b/test/data/enm/study-NWKI-d88abc39-2ed8-4835-ad25-b23982c9ad4a.json
index a123273..a123273 100644
--- a/test/data/enm/study-NWKI-08b685e5-70fa-39b5-87ad-092df4a60568.json
+++ b/test/data/enm/study-NWKI-d88abc39-2ed8-4835-ad25-b23982c9ad4a.json
diff --git a/test/data/enm/study-NWKI-d9006c65-1eec-4cc1-b274-1738400627ff.json b/test/data/enm/study-NWKI-d9006c65-1eec-4cc1-b274-1738400627ff.json
new file mode 100644
index 0000000..d391ef1
--- /dev/null
+++ b/test/data/enm/study-NWKI-d9006c65-1eec-4cc1-b274-1738400627ff.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-d9006c65-1eec-4cc1-b274-1738400627ff",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-1c2fcc25-c597-3fab-b383-fb203ef4a69a"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 9.48,
+        "errorValue": 1.26
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-47d254de-8242-3374-9ed3-085227d473cc.json b/test/data/enm/study-NWKI-d9b323b6-cc7b-4d29-a03b-aad51389d92b.json
index 1470390..1470390 100644
--- a/test/data/enm/study-NWKI-47d254de-8242-3374-9ed3-085227d473cc.json
+++ b/test/data/enm/study-NWKI-d9b323b6-cc7b-4d29-a03b-aad51389d92b.json
diff --git a/test/data/enm/study-NWKI-5454d5cb-1033-3d6f-a31e-038752525533.json b/test/data/enm/study-NWKI-d9c32176-7528-4879-8bc4-930c8e965db1.json
index e145651..e145651 100644
--- a/test/data/enm/study-NWKI-5454d5cb-1033-3d6f-a31e-038752525533.json
+++ b/test/data/enm/study-NWKI-d9c32176-7528-4879-8bc4-930c8e965db1.json
diff --git a/test/data/enm/study-NWKI-8196e92b-c46d-3c14-9410-e87992810710.json b/test/data/enm/study-NWKI-d9cdbe0d-05e6-4d3b-8c05-1f957e5b317e.json
index 8ee8ba2..8ee8ba2 100644
--- a/test/data/enm/study-NWKI-8196e92b-c46d-3c14-9410-e87992810710.json
+++ b/test/data/enm/study-NWKI-d9cdbe0d-05e6-4d3b-8c05-1f957e5b317e.json
diff --git a/test/data/enm/study-NWKI-9a41ca03-303d-3116-89fb-2335cc1bad2d.json b/test/data/enm/study-NWKI-d9f7009b-c7da-4a61-b3d8-7d475465a081.json
index 447892e..447892e 100644
--- a/test/data/enm/study-NWKI-9a41ca03-303d-3116-89fb-2335cc1bad2d.json
+++ b/test/data/enm/study-NWKI-d9f7009b-c7da-4a61-b3d8-7d475465a081.json
diff --git a/test/data/enm/study-NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54.json b/test/data/enm/study-NWKI-da0a27f7-bbfd-4f1f-a3a1-10d6a5994c9b.json
index 97f0241..97f0241 100644
--- a/test/data/enm/study-NWKI-9f37da26-8619-3eb1-9c29-e5f9ea09de54.json
+++ b/test/data/enm/study-NWKI-da0a27f7-bbfd-4f1f-a3a1-10d6a5994c9b.json
diff --git a/test/data/enm/study-NWKI-1c2fcc25-c597-3fab-b383-fb203ef4a69a.json b/test/data/enm/study-NWKI-da126db9-3a18-4d18-8c38-71486a8dac52.json
index ecd5a0b..ecd5a0b 100644
--- a/test/data/enm/study-NWKI-1c2fcc25-c597-3fab-b383-fb203ef4a69a.json
+++ b/test/data/enm/study-NWKI-da126db9-3a18-4d18-8c38-71486a8dac52.json
diff --git a/test/data/enm/study-NWKI-80364e0e-be06-3645-a3ae-880ae0edddef.json b/test/data/enm/study-NWKI-da94bc66-2353-4c5b-b79a-394b815a1032.json
index a692557..a692557 100644
--- a/test/data/enm/study-NWKI-80364e0e-be06-3645-a3ae-880ae0edddef.json
+++ b/test/data/enm/study-NWKI-da94bc66-2353-4c5b-b79a-394b815a1032.json
diff --git a/test/data/enm/study-NWKI-daba0539-9011-4d0a-90d4-556ebd9d1a46.json b/test/data/enm/study-NWKI-daba0539-9011-4d0a-90d4-556ebd9d1a46.json
new file mode 100644
index 0000000..94e3115
--- /dev/null
+++ b/test/data/enm/study-NWKI-daba0539-9011-4d0a-90d4-556ebd9d1a46.json
@@ -0,0 +1,59 @@
+{
+  "uuid": "NWKI-daba0539-9011-4d0a-90d4-556ebd9d1a46",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Hydrodynamic size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "MASS MEDIAN AERODYNAMIC DIAMETER",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null,
+        "Serum": {
+          "loValue": "sfMEM"
+        }
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 160
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-daea095e-5bc5-4f7a-9955-3ea3f5987627.json b/test/data/enm/study-NWKI-daea095e-5bc5-4f7a-9955-3ea3f5987627.json
new file mode 100644
index 0000000..c70eb84
--- /dev/null
+++ b/test/data/enm/study-NWKI-daea095e-5bc5-4f7a-9955-3ea3f5987627.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-daea095e-5bc5-4f7a-9955-3ea3f5987627",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-506de59a-ae92-361b-a934-0fdfa41101c0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "CLIO-2DVT680-2DProtamine"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "VT680"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "VT680"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-db709cf9-ea1c-469d-b877-19ab2945430c.json b/test/data/enm/study-NWKI-db709cf9-ea1c-469d-b877-19ab2945430c.json
new file mode 100644
index 0000000..5505dac
--- /dev/null
+++ b/test/data/enm/study-NWKI-db709cf9-ea1c-469d-b877-19ab2945430c.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-db709cf9-ea1c-469d-b877-19ab2945430c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-4dd2cfcb-0daf-33f7-ba67-f629e3019271"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-705f070c-0c34-3638-803b-c5e85749bf53.json b/test/data/enm/study-NWKI-db74fd62-6078-4d38-acf0-c905ddd6f566.json
index 88ab243..88ab243 100644
--- a/test/data/enm/study-NWKI-705f070c-0c34-3638-803b-c5e85749bf53.json
+++ b/test/data/enm/study-NWKI-db74fd62-6078-4d38-acf0-c905ddd6f566.json
diff --git a/test/data/enm/study-NWKI-db7f8f08-cfb5-434d-a143-e629224adfec.json b/test/data/enm/study-NWKI-db7f8f08-cfb5-434d-a143-e629224adfec.json
new file mode 100644
index 0000000..aea14e0
--- /dev/null
+++ b/test/data/enm/study-NWKI-db7f8f08-cfb5-434d-a143-e629224adfec.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-db7f8f08-cfb5-434d-a143-e629224adfec",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-a28e83ea-54da-3391-9bca-4a8891680403"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 5.6,
+        "errorValue": 0.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9.json b/test/data/enm/study-NWKI-dbe3c3e5-d791-431b-b958-7e6330adee08.json
index 5ddef68..5ddef68 100644
--- a/test/data/enm/study-NWKI-8c5b9350-2c03-3173-9615-cabfbe6929c9.json
+++ b/test/data/enm/study-NWKI-dbe3c3e5-d791-431b-b958-7e6330adee08.json
diff --git a/test/data/enm/study-NWKI-6b4d33a5-b573-3dbe-9ec3-9d2a9bc42a2e.json b/test/data/enm/study-NWKI-dcbe96d3-af8b-48e5-94c2-7c081c1b978a.json
index 41f3fda..41f3fda 100644
--- a/test/data/enm/study-NWKI-6b4d33a5-b573-3dbe-9ec3-9d2a9bc42a2e.json
+++ b/test/data/enm/study-NWKI-dcbe96d3-af8b-48e5-94c2-7c081c1b978a.json
diff --git a/test/data/enm/study-NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c.json b/test/data/enm/study-NWKI-dcebdf50-3012-4f47-920f-e1b23004e3c2.json
index 59752b6..59752b6 100644
--- a/test/data/enm/study-NWKI-8f7f774c-d727-33a9-adc6-9068524faf1c.json
+++ b/test/data/enm/study-NWKI-dcebdf50-3012-4f47-920f-e1b23004e3c2.json
diff --git a/test/data/enm/study-NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b.json b/test/data/enm/study-NWKI-dd496293-9be8-440a-bc07-9291cd70f0ac.json
index f77e90b..f77e90b 100644
--- a/test/data/enm/study-NWKI-144a9226-4b93-36a9-ba2d-6b6c4903357b.json
+++ b/test/data/enm/study-NWKI-dd496293-9be8-440a-bc07-9291cd70f0ac.json
diff --git a/test/data/enm/study-NWKI-dd500fc2-bd1d-4d86-8287-c900b9ea8e2e.json b/test/data/enm/study-NWKI-dd500fc2-bd1d-4d86-8287-c900b9ea8e2e.json
new file mode 100644
index 0000000..93c183c
--- /dev/null
+++ b/test/data/enm/study-NWKI-dd500fc2-bd1d-4d86-8287-c900b9ea8e2e.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-dd500fc2-bd1d-4d86-8287-c900b9ea8e2e",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d1c31022-c044-30fa-931e-07d96b6f04b5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1080/10934520600966177",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "Surface Area",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+        "Remark": null
+      },
+      "result": {
+        "unit": "m^2/g",
+        "loQualifier": ">=",
+        "loValue": 45,
+        "upQualifier": "<=",
+        "upValue": 43
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-dd55b7cb-0a21-4d3c-98f7-fe0d8d20f242.json b/test/data/enm/study-NWKI-dd55b7cb-0a21-4d3c-98f7-fe0d8d20f242.json
new file mode 100644
index 0000000..9ee7bf3
--- /dev/null
+++ b/test/data/enm/study-NWKI-dd55b7cb-0a21-4d3c-98f7-fe0d8d20f242.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-dd55b7cb-0a21-4d3c-98f7-fe0d8d20f242",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-de03994b-9d74-3e39-aa41-e7df34384442"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-dd5da5bf-8a6f-44c0-9779-5fd77bb917e1.json b/test/data/enm/study-NWKI-dd5da5bf-8a6f-44c0-9779-5fd77bb917e1.json
new file mode 100644
index 0000000..d118e46
--- /dev/null
+++ b/test/data/enm/study-NWKI-dd5da5bf-8a6f-44c0-9779-5fd77bb917e1.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-dd5da5bf-8a6f-44c0-9779-5fd77bb917e1",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c.json b/test/data/enm/study-NWKI-ddc8bdc0-b096-4f84-93ae-9f97c6c45e49.json
index 191f580..191f580 100644
--- a/test/data/enm/study-NWKI-bbb67d89-eaff-38ab-ba4f-403bfb064a0c.json
+++ b/test/data/enm/study-NWKI-ddc8bdc0-b096-4f84-93ae-9f97c6c45e49.json
diff --git a/test/data/enm/study-NWKI-de386b5b-748e-498c-9d9a-2b344e887980.json b/test/data/enm/study-NWKI-de386b5b-748e-498c-9d9a-2b344e887980.json
new file mode 100644
index 0000000..eb5a8c1
--- /dev/null
+++ b/test/data/enm/study-NWKI-de386b5b-748e-498c-9d9a-2b344e887980.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-de386b5b-748e-498c-9d9a-2b344e887980",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ae63c430-7a80-35c3-828d-c859d81ce698.json b/test/data/enm/study-NWKI-de90d49e-4055-46b1-9c9f-3106a61306d8.json
index efd15e7..efd15e7 100644
--- a/test/data/enm/study-NWKI-ae63c430-7a80-35c3-828d-c859d81ce698.json
+++ b/test/data/enm/study-NWKI-de90d49e-4055-46b1-9c9f-3106a61306d8.json
diff --git a/test/data/enm/study-NWKI-deb78580-7dbc-452a-a12b-e4b55b84ff8f.json b/test/data/enm/study-NWKI-deb78580-7dbc-452a-a12b-e4b55b84ff8f.json
new file mode 100644
index 0000000..d5476b2
--- /dev/null
+++ b/test/data/enm/study-NWKI-deb78580-7dbc-452a-a12b-e4b55b84ff8f.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-deb78580-7dbc-452a-a12b-e4b55b84ff8f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c8d9772c-e50e-3c71-986c-e45692150d71"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DCOOH"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ad1d5068-29cd-3d8c-9ed0-44ed4ce06ddd.json b/test/data/enm/study-NWKI-df09fcef-098d-4e01-9d19-0304cd36e96d.json
index 3ea6823..3ea6823 100644
--- a/test/data/enm/study-NWKI-ad1d5068-29cd-3d8c-9ed0-44ed4ce06ddd.json
+++ b/test/data/enm/study-NWKI-df09fcef-098d-4e01-9d19-0304cd36e96d.json
diff --git a/test/data/enm/study-NWKI-ca37d03d-af78-3982-8ca0-76025e71fcf1.json b/test/data/enm/study-NWKI-df697673-f97c-4bc6-9187-ea0a8cad201c.json
index 05f6d7f..05f6d7f 100644
--- a/test/data/enm/study-NWKI-ca37d03d-af78-3982-8ca0-76025e71fcf1.json
+++ b/test/data/enm/study-NWKI-df697673-f97c-4bc6-9187-ea0a8cad201c.json
diff --git a/test/data/enm/study-NWKI-dfd0dabb-2867-4d2b-92c4-f80fc12f933f.json b/test/data/enm/study-NWKI-dfd0dabb-2867-4d2b-92c4-f80fc12f933f.json
new file mode 100644
index 0000000..bdd8da8
--- /dev/null
+++ b/test/data/enm/study-NWKI-dfd0dabb-2867-4d2b-92c4-f80fc12f933f.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-dfd0dabb-2867-4d2b-92c4-f80fc12f933f",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 10,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e0b3dbc7-92eb-47b2-bacc-66c8ee3e589b.json b/test/data/enm/study-NWKI-e0b3dbc7-92eb-47b2-bacc-66c8ee3e589b.json
new file mode 100644
index 0000000..f0b859a
--- /dev/null
+++ b/test/data/enm/study-NWKI-e0b3dbc7-92eb-47b2-bacc-66c8ee3e589b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e0b3dbc7-92eb-47b2-bacc-66c8ee3e589b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 12.5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-b5385309-1812-33ad-a4cf-66d8d3a26bcc.json b/test/data/enm/study-NWKI-e1028d25-5223-4684-b42a-bbdcbbdbfedd.json
index 2bed1d3..2bed1d3 100644
--- a/test/data/enm/study-NWKI-b5385309-1812-33ad-a4cf-66d8d3a26bcc.json
+++ b/test/data/enm/study-NWKI-e1028d25-5223-4684-b42a-bbdcbbdbfedd.json
diff --git a/test/data/enm/study-NWKI-4dd2cfcb-0daf-33f7-ba67-f629e3019271.json b/test/data/enm/study-NWKI-e140d5a5-9f7f-455e-a1c9-82ae07a4ba3e.json
index e6b0e45..e6b0e45 100644
--- a/test/data/enm/study-NWKI-4dd2cfcb-0daf-33f7-ba67-f629e3019271.json
+++ b/test/data/enm/study-NWKI-e140d5a5-9f7f-455e-a1c9-82ae07a4ba3e.json
diff --git a/test/data/enm/study-NWKI-ea2bb63b-fd2a-32c2-a41a-d0280abaf29f.json b/test/data/enm/study-NWKI-e147c87e-1b3f-4f86-96b9-20917e46a195.json
index bf2dfb2..bf2dfb2 100644
--- a/test/data/enm/study-NWKI-ea2bb63b-fd2a-32c2-a41a-d0280abaf29f.json
+++ b/test/data/enm/study-NWKI-e147c87e-1b3f-4f86-96b9-20917e46a195.json
diff --git a/test/data/enm/study-NWKI-90869553-c8fe-3ef6-8e68-47f392958127.json b/test/data/enm/study-NWKI-e1a5e9f3-2a77-4fb7-80b2-e84689f62c50.json
index f84dccc..f84dccc 100644
--- a/test/data/enm/study-NWKI-90869553-c8fe-3ef6-8e68-47f392958127.json
+++ b/test/data/enm/study-NWKI-e1a5e9f3-2a77-4fb7-80b2-e84689f62c50.json
diff --git a/test/data/enm/study-NWKI-ae67096a-fca6-3afc-bade-c362e3eeadc8.json b/test/data/enm/study-NWKI-e1b6ba8e-5535-43b7-b82d-8356c6004d19.json
index e0c118b..e0c118b 100644
--- a/test/data/enm/study-NWKI-ae67096a-fca6-3afc-bade-c362e3eeadc8.json
+++ b/test/data/enm/study-NWKI-e1b6ba8e-5535-43b7-b82d-8356c6004d19.json
diff --git a/test/data/enm/study-NWKI-e21b970a-2792-4017-bb1b-f2446adad084.json b/test/data/enm/study-NWKI-e21b970a-2792-4017-bb1b-f2446adad084.json
new file mode 100644
index 0000000..ebbe332
--- /dev/null
+++ b/test/data/enm/study-NWKI-e21b970a-2792-4017-bb1b-f2446adad084.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "NWKI-e21b970a-2792-4017-bb1b-f2446adad084",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-aeeb6004-b180-3b01-a9ab-68b64e19011b"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/nn2021056",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 29.2,
+        "errorValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7181cc57-548a-3117-b59a-bfff2933c0b5.json b/test/data/enm/study-NWKI-e22dd986-7128-4270-ad57-28d619a2db06.json
index 0def525..0def525 100644
--- a/test/data/enm/study-NWKI-7181cc57-548a-3117-b59a-bfff2933c0b5.json
+++ b/test/data/enm/study-NWKI-e22dd986-7128-4270-ad57-28d619a2db06.json
diff --git a/test/data/enm/study-NWKI-101f021f-b17b-3225-85c5-3cd2f9e5208d.json b/test/data/enm/study-NWKI-e2383ba1-c0f4-4bc1-9050-279188cbb332.json
index 1577a9b..1577a9b 100644
--- a/test/data/enm/study-NWKI-101f021f-b17b-3225-85c5-3cd2f9e5208d.json
+++ b/test/data/enm/study-NWKI-e2383ba1-c0f4-4bc1-9050-279188cbb332.json
diff --git a/test/data/enm/study-NWKI-aeeb6004-b180-3b01-a9ab-68b64e19011b.json b/test/data/enm/study-NWKI-e26d4379-6272-4aed-80f4-68e4c557dca5.json
index a56bd96..a56bd96 100644
--- a/test/data/enm/study-NWKI-aeeb6004-b180-3b01-a9ab-68b64e19011b.json
+++ b/test/data/enm/study-NWKI-e26d4379-6272-4aed-80f4-68e4c557dca5.json
diff --git a/test/data/enm/study-NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1.json b/test/data/enm/study-NWKI-e30588db-ff9b-42fa-ae5f-eba1238b82aa.json
index 30c316e..30c316e 100644
--- a/test/data/enm/study-NWKI-8a4b3e23-3327-3421-b20a-2e71939b44b1.json
+++ b/test/data/enm/study-NWKI-e30588db-ff9b-42fa-ae5f-eba1238b82aa.json
diff --git a/test/data/enm/study-NWKI-e30bfa97-fb24-4adc-a85c-e377c1f4a28b.json b/test/data/enm/study-NWKI-e30bfa97-fb24-4adc-a85c-e377c1f4a28b.json
new file mode 100644
index 0000000..165a2a6
--- /dev/null
+++ b/test/data/enm/study-NWKI-e30bfa97-fb24-4adc-a85c-e377c1f4a28b.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-e30bfa97-fb24-4adc-a85c-e377c1f4a28b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 44,
+        "errorValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e320cebf-22f8-447a-9546-62c66dff6321.json b/test/data/enm/study-NWKI-e320cebf-22f8-447a-9546-62c66dff6321.json
new file mode 100644
index 0000000..8299932
--- /dev/null
+++ b/test/data/enm/study-NWKI-e320cebf-22f8-447a-9546-62c66dff6321.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e320cebf-22f8-447a-9546-62c66dff6321",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1016/j.chemosphere.2011.04.067",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "Cell number determination"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Method type": "Cell number determination"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 3333,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e32cde8a-54cd-420c-9af5-7b6aa10f7709.json b/test/data/enm/study-NWKI-e32cde8a-54cd-420c-9af5-7b6aa10f7709.json
new file mode 100644
index 0000000..6b033ab
--- /dev/null
+++ b/test/data/enm/study-NWKI-e32cde8a-54cd-420c-9af5-7b6aa10f7709.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e32cde8a-54cd-420c-9af5-7b6aa10f7709",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 150,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ff85c0ea-c908-35c8-9f1c-bfd037800a31.json b/test/data/enm/study-NWKI-e33e16a3-e454-4cb2-bcc4-38d655c6eebd.json
index d477778..d477778 100644
--- a/test/data/enm/study-NWKI-ff85c0ea-c908-35c8-9f1c-bfd037800a31.json
+++ b/test/data/enm/study-NWKI-e33e16a3-e454-4cb2-bcc4-38d655c6eebd.json
diff --git a/test/data/enm/study-NWKI-e3c1dfe2-2c80-4060-8c50-af6421bfd759.json b/test/data/enm/study-NWKI-e3c1dfe2-2c80-4060-8c50-af6421bfd759.json
new file mode 100644
index 0000000..b76ae6c
--- /dev/null
+++ b/test/data/enm/study-NWKI-e3c1dfe2-2c80-4060-8c50-af6421bfd759.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-e3c1dfe2-2c80-4060-8c50-af6421bfd759",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e518c122-5f4f-3611-8b30-56b671883e5c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1073/pnas.0802878105",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "pH": null
+      },
+      "result": {
+        "unit": null,
+        "loValue": -6.75
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-69b604fb-e892-31ba-a6f5-feb6cb04effb.json b/test/data/enm/study-NWKI-e43d32f2-ae16-4616-bf39-1621decccad1.json
index 00a8569..00a8569 100644
--- a/test/data/enm/study-NWKI-69b604fb-e892-31ba-a6f5-feb6cb04effb.json
+++ b/test/data/enm/study-NWKI-e43d32f2-ae16-4616-bf39-1621decccad1.json
diff --git a/test/data/enm/study-NWKI-44b3fa7b-1667-3f4a-9e31-7a5202320cf3.json b/test/data/enm/study-NWKI-e45646a0-dfc1-45c9-84b2-d7ce19efcc2f.json
index 7a6c478..7a6c478 100644
--- a/test/data/enm/study-NWKI-44b3fa7b-1667-3f4a-9e31-7a5202320cf3.json
+++ b/test/data/enm/study-NWKI-e45646a0-dfc1-45c9-84b2-d7ce19efcc2f.json
diff --git a/test/data/enm/study-NWKI-0494174f-9fc2-3296-8ffb-4fadaceb0348.json b/test/data/enm/study-NWKI-e48a654a-65fd-429c-b366-efbd13e1d798.json
index a6e0e24..a6e0e24 100644
--- a/test/data/enm/study-NWKI-0494174f-9fc2-3296-8ffb-4fadaceb0348.json
+++ b/test/data/enm/study-NWKI-e48a654a-65fd-429c-b366-efbd13e1d798.json
diff --git a/test/data/enm/study-NWKI-6cab56b4-69d9-36e0-8c17-f467d08b2555.json b/test/data/enm/study-NWKI-e49fd474-935c-4ca5-b755-884722787ee5.json
index 142f11d..142f11d 100644
--- a/test/data/enm/study-NWKI-6cab56b4-69d9-36e0-8c17-f467d08b2555.json
+++ b/test/data/enm/study-NWKI-e49fd474-935c-4ca5-b755-884722787ee5.json
diff --git a/test/data/enm/study-NWKI-02981dd4-b7d0-34c8-a0ab-dd19a5a40865.json b/test/data/enm/study-NWKI-e4bf86b6-5269-409e-a8ae-f551158f8cb3.json
index 94d859a..94d859a 100644
--- a/test/data/enm/study-NWKI-02981dd4-b7d0-34c8-a0ab-dd19a5a40865.json
+++ b/test/data/enm/study-NWKI-e4bf86b6-5269-409e-a8ae-f551158f8cb3.json
diff --git a/test/data/enm/study-NWKI-4fa19c49-f3b1-3e34-8aa4-3da258933bf8.json b/test/data/enm/study-NWKI-e536a891-5802-420c-8cfa-c23251726ee4.json
index 3e57dd7..3e57dd7 100644
--- a/test/data/enm/study-NWKI-4fa19c49-f3b1-3e34-8aa4-3da258933bf8.json
+++ b/test/data/enm/study-NWKI-e536a891-5802-420c-8cfa-c23251726ee4.json
diff --git a/test/data/enm/study-NWKI-863267cf-faf0-349b-8046-6074d2e718b5.json b/test/data/enm/study-NWKI-e5772c16-6c45-4b96-8873-b920f0af25de.json
index 568f70f..568f70f 100644
--- a/test/data/enm/study-NWKI-863267cf-faf0-349b-8046-6074d2e718b5.json
+++ b/test/data/enm/study-NWKI-e5772c16-6c45-4b96-8873-b920f0af25de.json
diff --git a/test/data/enm/study-NWKI-506de59a-ae92-361b-a934-0fdfa41101c0.json b/test/data/enm/study-NWKI-e5f9a72e-5f64-4fa9-b350-a64ec8ada63f.json
index 2d503fe..2d503fe 100644
--- a/test/data/enm/study-NWKI-506de59a-ae92-361b-a934-0fdfa41101c0.json
+++ b/test/data/enm/study-NWKI-e5f9a72e-5f64-4fa9-b350-a64ec8ada63f.json
diff --git a/test/data/enm/study-NWKI-e623f359-40a7-45d7-8dd2-703a80de86c4.json b/test/data/enm/study-NWKI-e623f359-40a7-45d7-8dd2-703a80de86c4.json
new file mode 100644
index 0000000..5b68e62
--- /dev/null
+++ b/test/data/enm/study-NWKI-e623f359-40a7-45d7-8dd2-703a80de86c4.json
@@ -0,0 +1,65 @@
+{
+  "uuid": "NWKI-e623f359-40a7-45d7-8dd2-703a80de86c4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/ja309812z",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "Zeta Potential",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "TESTMAT_FORM": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+        "MEDIUM": null,
+        "Remark": null,
+        "Serum": {
+          "loValue": "cMEM"
+        },
+        "pH": {
+          "loValue": 7.83
+        }
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e66100d6-ab2b-4207-9ed1-aae1e2a8caf4.json b/test/data/enm/study-NWKI-e66100d6-ab2b-4207-9ed1-aae1e2a8caf4.json
new file mode 100644
index 0000000..e4e1814
--- /dev/null
+++ b/test/data/enm/study-NWKI-e66100d6-ab2b-4207-9ed1-aae1e2a8caf4.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e66100d6-ab2b-4207-9ed1-aae1e2a8caf4",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 0.75,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-7031754f-5bb6-3594-8a32-0c03256cdf61.json b/test/data/enm/study-NWKI-e66557c3-f380-4f87-ad2c-7a943571224a.json
index 7cc85b4..7cc85b4 100644
--- a/test/data/enm/study-NWKI-7031754f-5bb6-3594-8a32-0c03256cdf61.json
+++ b/test/data/enm/study-NWKI-e66557c3-f380-4f87-ad2c-7a943571224a.json
diff --git a/test/data/enm/study-NWKI-e6c69c36-e724-4af9-8501-a313510dc632.json b/test/data/enm/study-NWKI-e6c69c36-e724-4af9-8501-a313510dc632.json
new file mode 100644
index 0000000..3f78d76
--- /dev/null
+++ b/test/data/enm/study-NWKI-e6c69c36-e724-4af9-8501-a313510dc632.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-e6c69c36-e724-4af9-8501-a313510dc632",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8a968835-50ab-33df-bf5e-42de32d01c15"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Colon HT29",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-83a75181-9103-3ef9-aec7-fa38074580f6.json b/test/data/enm/study-NWKI-e754b05e-be94-4cce-a33d-19173e404ca1.json
index 6176831..6176831 100644
--- a/test/data/enm/study-NWKI-83a75181-9103-3ef9-aec7-fa38074580f6.json
+++ b/test/data/enm/study-NWKI-e754b05e-be94-4cce-a33d-19173e404ca1.json
diff --git a/test/data/enm/study-NWKI-8a968835-50ab-33df-bf5e-42de32d01c15.json b/test/data/enm/study-NWKI-e7692ca8-09d6-4c84-a069-6f57200ab2e0.json
index 807770a..807770a 100644
--- a/test/data/enm/study-NWKI-8a968835-50ab-33df-bf5e-42de32d01c15.json
+++ b/test/data/enm/study-NWKI-e7692ca8-09d6-4c84-a069-6f57200ab2e0.json
diff --git a/test/data/enm/study-NWKI-e79f5a52-5c63-4532-87d0-62e15f4ea72b.json b/test/data/enm/study-NWKI-e79f5a52-5c63-4532-87d0-62e15f4ea72b.json
new file mode 100644
index 0000000..cab652d
--- /dev/null
+++ b/test/data/enm/study-NWKI-e79f5a52-5c63-4532-87d0-62e15f4ea72b.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e79f5a52-5c63-4532-87d0-62e15f4ea72b",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-395bf212-b710-3385-9c23-715a7055b015"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3109/17435390903276933",
+    "year": "2009",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "LDH Release",
+    "guideline": [
+      "Lactate Dehydrogenase Activity"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "Lactate Dehydrogenase Activity"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "LDH_Release",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "ug/cm^2"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e802e276-7b5c-46b5-b825-5e61aa184245.json b/test/data/enm/study-NWKI-e802e276-7b5c-46b5-b825-5e61aa184245.json
new file mode 100644
index 0000000..7e73a9e
--- /dev/null
+++ b/test/data/enm/study-NWKI-e802e276-7b5c-46b5-b825-5e61aa184245.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-e802e276-7b5c-46b5-b825-5e61aa184245",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 600,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 24
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 15
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e84ae886-79f5-4736-b2ff-187f21424841.json b/test/data/enm/study-NWKI-e84ae886-79f5-4736-b2ff-187f21424841.json
new file mode 100644
index 0000000..18949fe
--- /dev/null
+++ b/test/data/enm/study-NWKI-e84ae886-79f5-4736-b2ff-187f21424841.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-e84ae886-79f5-4736-b2ff-187f21424841",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-d8f70c6c-3496-3ad3-8ab3-e4f08a178d30"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      "DLS"
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "Method type": "DLS",
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 150,
+        "errorValue": 0.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e87408ad-fb53-45b5-88ce-d6c95bcefafb.json b/test/data/enm/study-NWKI-e87408ad-fb53-45b5-88ce-d6c95bcefafb.json
new file mode 100644
index 0000000..6e15872
--- /dev/null
+++ b/test/data/enm/study-NWKI-e87408ad-fb53-45b5-88ce-d6c95bcefafb.json
@@ -0,0 +1,60 @@
+{
+  "uuid": "NWKI-e87408ad-fb53-45b5-88ce-d6c95bcefafb",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1021/es051043o",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "Concentration in cell",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Concentration_in_cell",
+      "conditions": {
+        "Concentration in culture medium": {
+          "loValue": 100,
+          "unit": "ng/g"
+        },
+        "Time": {
+          "loValue": 1,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 27
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e93a9eb3-83df-3522-b417-7b3a379054a6.json b/test/data/enm/study-NWKI-e8912d4d-3491-46ef-8171-8fe1442e9136.json
index 7cd5346..7cd5346 100644
--- a/test/data/enm/study-NWKI-e93a9eb3-83df-3522-b417-7b3a379054a6.json
+++ b/test/data/enm/study-NWKI-e8912d4d-3491-46ef-8171-8fe1442e9136.json
diff --git a/test/data/enm/study-NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb.json b/test/data/enm/study-NWKI-e8a0ef87-e997-4b5c-8e9d-38d04fc062a5.json
index 7fdb358..7fdb358 100644
--- a/test/data/enm/study-NWKI-2a046d54-ea47-31b2-a370-e886e5a0a6bb.json
+++ b/test/data/enm/study-NWKI-e8a0ef87-e997-4b5c-8e9d-38d04fc062a5.json
diff --git a/test/data/enm/study-NWKI-3481f716-18fa-39b3-aa54-4acb67877194.json b/test/data/enm/study-NWKI-e8a71c08-fd85-4399-af9f-bc3233a8e111.json
index a6c96f7..a6c96f7 100644
--- a/test/data/enm/study-NWKI-3481f716-18fa-39b3-aa54-4acb67877194.json
+++ b/test/data/enm/study-NWKI-e8a71c08-fd85-4399-af9f-bc3233a8e111.json
diff --git a/test/data/enm/study-NWKI-5adec23a-ab6a-350e-baec-cd088a4667d5.json b/test/data/enm/study-NWKI-e8fcf88e-c52d-4be4-992d-fd731ffc5144.json
index 6e24069..6e24069 100644
--- a/test/data/enm/study-NWKI-5adec23a-ab6a-350e-baec-cd088a4667d5.json
+++ b/test/data/enm/study-NWKI-e8fcf88e-c52d-4be4-992d-fd731ffc5144.json
diff --git a/test/data/enm/study-NWKI-6e6a5fec-23c2-3fff-8522-a22689091196.json b/test/data/enm/study-NWKI-e93beeb2-1448-497f-9931-56afc2834747.json
index 896a987..896a987 100644
--- a/test/data/enm/study-NWKI-6e6a5fec-23c2-3fff-8522-a22689091196.json
+++ b/test/data/enm/study-NWKI-e93beeb2-1448-497f-9931-56afc2834747.json
diff --git a/test/data/enm/study-NWKI-30a91305-4a0d-3d7b-a399-6d5b3ee0d641.json b/test/data/enm/study-NWKI-e950a396-9e0d-43e3-a6fd-9d3b5c32f83e.json
index 43a4885..43a4885 100644
--- a/test/data/enm/study-NWKI-30a91305-4a0d-3d7b-a399-6d5b3ee0d641.json
+++ b/test/data/enm/study-NWKI-e950a396-9e0d-43e3-a6fd-9d3b5c32f83e.json
diff --git a/test/data/enm/study-NWKI-09e3ff87-f9a0-34dc-955e-e8b8474fb12b.json b/test/data/enm/study-NWKI-e96f3a5f-d334-4e90-9523-ed67d33e6f76.json
index c2d3147..c2d3147 100644
--- a/test/data/enm/study-NWKI-09e3ff87-f9a0-34dc-955e-e8b8474fb12b.json
+++ b/test/data/enm/study-NWKI-e96f3a5f-d334-4e90-9523-ed67d33e6f76.json
diff --git a/test/data/enm/study-NWKI-605f4f43-028b-3a42-ae94-9852a9f6f5f8.json b/test/data/enm/study-NWKI-e9ae71d3-fd50-4f4e-bef9-9063b1f1297d.json
index ace4bbb..ace4bbb 100644
--- a/test/data/enm/study-NWKI-605f4f43-028b-3a42-ae94-9852a9f6f5f8.json
+++ b/test/data/enm/study-NWKI-e9ae71d3-fd50-4f4e-bef9-9063b1f1297d.json
diff --git a/test/data/enm/study-NWKI-0455b6e1-5203-37bb-a98b-20460acceda1.json b/test/data/enm/study-NWKI-e9c11fe6-5416-4cfc-a156-9a90788b2709.json
index f647097..f647097 100644
--- a/test/data/enm/study-NWKI-0455b6e1-5203-37bb-a98b-20460acceda1.json
+++ b/test/data/enm/study-NWKI-e9c11fe6-5416-4cfc-a156-9a90788b2709.json
diff --git a/test/data/enm/study-NWKI-c5e226b0-d405-32d5-a652-7f7f1f0eb55d.json b/test/data/enm/study-NWKI-e9eecdcb-5179-4160-8e90-268db1c378a7.json
index 28ee2a5..28ee2a5 100644
--- a/test/data/enm/study-NWKI-c5e226b0-d405-32d5-a652-7f7f1f0eb55d.json
+++ b/test/data/enm/study-NWKI-e9eecdcb-5179-4160-8e90-268db1c378a7.json
diff --git a/test/data/enm/study-NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44.json b/test/data/enm/study-NWKI-e9f56dd0-29d1-4ddc-a4fe-6c740f8a07de.json
index 33cac40..33cac40 100644
--- a/test/data/enm/study-NWKI-fdab53f4-57f3-3501-9bfc-a4ae95c4ec44.json
+++ b/test/data/enm/study-NWKI-e9f56dd0-29d1-4ddc-a4fe-6c740f8a07de.json
diff --git a/test/data/enm/study-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json b/test/data/enm/study-NWKI-ea31baba-b673-423e-a37c-4b9d21494550.json
index e0ca260..e0ca260 100644
--- a/test/data/enm/study-NWKI-4beee533-65e4-364a-adb7-7a520180de61.json
+++ b/test/data/enm/study-NWKI-ea31baba-b673-423e-a37c-4b9d21494550.json
diff --git a/test/data/enm/study-NWKI-c7bee4e3-8884-3e29-ad8b-38decf6146fd.json b/test/data/enm/study-NWKI-ea56f38e-663f-4bdc-ab4a-1d9f204e7477.json
index bced761..bced761 100644
--- a/test/data/enm/study-NWKI-c7bee4e3-8884-3e29-ad8b-38decf6146fd.json
+++ b/test/data/enm/study-NWKI-ea56f38e-663f-4bdc-ab4a-1d9f204e7477.json
diff --git a/test/data/enm/study-NWKI-ea6de4e4-954d-44f6-9b52-82cbd8a646a0.json b/test/data/enm/study-NWKI-ea6de4e4-954d-44f6-9b52-82cbd8a646a0.json
new file mode 100644
index 0000000..03ebde1
--- /dev/null
+++ b/test/data/enm/study-NWKI-ea6de4e4-954d-44f6-9b52-82cbd8a646a0.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-ea6de4e4-954d-44f6-9b52-82cbd8a646a0",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 20,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-3ccb7313-0905-322a-ac62-09adb667bc0f.json b/test/data/enm/study-NWKI-eb7ec2b5-8964-4b78-88ac-4095399c8b33.json
index f51556d..f51556d 100644
--- a/test/data/enm/study-NWKI-3ccb7313-0905-322a-ac62-09adb667bc0f.json
+++ b/test/data/enm/study-NWKI-eb7ec2b5-8964-4b78-88ac-4095399c8b33.json
diff --git a/test/data/enm/study-NWKI-bb97285c-a58f-34c0-aa16-d5eac02280fa.json b/test/data/enm/study-NWKI-ebafaab1-1dc2-41af-8065-393cb37943a0.json
index 11744ae..11744ae 100644
--- a/test/data/enm/study-NWKI-bb97285c-a58f-34c0-aa16-d5eac02280fa.json
+++ b/test/data/enm/study-NWKI-ebafaab1-1dc2-41af-8065-393cb37943a0.json
diff --git a/test/data/enm/study-NWKI-61515bd0-5a80-3428-a093-01be1d677862.json b/test/data/enm/study-NWKI-ec8a860b-5c0c-4f89-a591-eacdf9757dcd.json
index e27010b..e27010b 100644
--- a/test/data/enm/study-NWKI-61515bd0-5a80-3428-a093-01be1d677862.json
+++ b/test/data/enm/study-NWKI-ec8a860b-5c0c-4f89-a591-eacdf9757dcd.json
diff --git a/test/data/enm/study-NWKI-ed524437-e91a-4ca4-951c-b3962ee96a20.json b/test/data/enm/study-NWKI-ed524437-e91a-4ca4-951c-b3962ee96a20.json
new file mode 100644
index 0000000..201fcd5
--- /dev/null
+++ b/test/data/enm/study-NWKI-ed524437-e91a-4ca4-951c-b3962ee96a20.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-ed524437-e91a-4ca4-951c-b3962ee96a20",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-b110d018-6de0-303b-afcc-6a5e1f5911aa"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": null,
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Primary Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-ed96c06b-0775-4992-9d55-9cb401e8b27c.json b/test/data/enm/study-NWKI-ed96c06b-0775-4992-9d55-9cb401e8b27c.json
new file mode 100644
index 0000000..f176988
--- /dev/null
+++ b/test/data/enm/study-NWKI-ed96c06b-0775-4992-9d55-9cb401e8b27c.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "NWKI-ed96c06b-0775-4992-9d55-9cb401e8b27c",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e518c122-5f4f-3611-8b30-56b671883e5c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SURFACE_CHEMISTRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0000015",
+      "title": "4.30 Nanomaterial surface chemistry"
+    },
+    "endpoint": "Unknown",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DATA_GATHERING_INSTRUMENTS": null,
+    "Method details": null,
+    "SAMPLING": null,
+    "Type of method": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ATOMIC COMPOSITION",
+      "conditions": {
+        "COATING_DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA-2DED-2DAminoSPARK680"
+        },
+        "DESCRIPTION": {
+          "loQualifier": "  ",
+          "loValue": "PVA"
+        },
+        "ELEMENT_OR_GROUP": {
+          "loQualifier": "  "
+        },
+        "Remark": null,
+        "TYPE": {
+          "loQualifier": "  ",
+          "loValue": "COATING"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "PVA"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-e078849d-6137-33fc-b103-d458cb77184a.json b/test/data/enm/study-NWKI-edb48b72-618c-48f2-bda2-27e0c54780ca.json
index 2d768cf..2d768cf 100644
--- a/test/data/enm/study-NWKI-e078849d-6137-33fc-b103-d458cb77184a.json
+++ b/test/data/enm/study-NWKI-edb48b72-618c-48f2-bda2-27e0c54780ca.json
diff --git a/test/data/enm/study-NWKI-0b16e14c-47ab-3075-afc4-0713d06aa54c.json b/test/data/enm/study-NWKI-ee0e465d-b789-499c-aba3-c7c6f017fec6.json
index 78aa0d0..78aa0d0 100644
--- a/test/data/enm/study-NWKI-0b16e14c-47ab-3075-afc4-0713d06aa54c.json
+++ b/test/data/enm/study-NWKI-ee0e465d-b789-499c-aba3-c7c6f017fec6.json
diff --git a/test/data/enm/study-NWKI-57943982-0642-388c-be22-f1770d3b620c.json b/test/data/enm/study-NWKI-ee6e915f-27fe-47f6-b0a2-b6a34d63360c.json
index 980fcf6..980fcf6 100644
--- a/test/data/enm/study-NWKI-57943982-0642-388c-be22-f1770d3b620c.json
+++ b/test/data/enm/study-NWKI-ee6e915f-27fe-47f6-b0a2-b6a34d63360c.json
diff --git a/test/data/enm/study-NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd.json b/test/data/enm/study-NWKI-eeeeb0a4-1916-4f36-8179-13e6ae2acafb.json
index 6e7dee8..6e7dee8 100644
--- a/test/data/enm/study-NWKI-812e122b-8bee-350d-8aea-aaaa88ce84dd.json
+++ b/test/data/enm/study-NWKI-eeeeb0a4-1916-4f36-8179-13e6ae2acafb.json
diff --git a/test/data/enm/study-NWKI-82c12809-d7af-3061-a531-1db744c521f0.json b/test/data/enm/study-NWKI-eef63f55-589e-4f39-9981-16b5e109b518.json
index 1542ad2..1542ad2 100644
--- a/test/data/enm/study-NWKI-82c12809-d7af-3061-a531-1db744c521f0.json
+++ b/test/data/enm/study-NWKI-eef63f55-589e-4f39-9981-16b5e109b518.json
diff --git a/test/data/enm/study-NWKI-52edeff5-900d-3f5a-86ba-550e9b368239.json b/test/data/enm/study-NWKI-ef4230e8-9345-4e2d-8ff8-ab9347a680f4.json
index 27959e0..27959e0 100644
--- a/test/data/enm/study-NWKI-52edeff5-900d-3f5a-86ba-550e9b368239.json
+++ b/test/data/enm/study-NWKI-ef4230e8-9345-4e2d-8ff8-ab9347a680f4.json
diff --git a/test/data/enm/study-NWKI-ef4d1512-aa17-48f1-be53-08cfb0868848.json b/test/data/enm/study-NWKI-ef4d1512-aa17-48f1-be53-08cfb0868848.json
new file mode 100644
index 0000000..5504411
--- /dev/null
+++ b/test/data/enm/study-NWKI-ef4d1512-aa17-48f1-be53-08cfb0868848.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "NWKI-ef4d1512-aa17-48f1-be53-08cfb0868848",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8ef21404-e101-37c8-8206-32f526d75012"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "0",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "Particle Size",
+    "guideline": [
+      ""
+    ]
+  },
+  "parameters": {
+    "DISTRIBUTION_TYPE": null,
+    "TESTMAT_FORM": null
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PARTICLE SIZE",
+      "conditions": {
+        "Remark": null,
+        "SEQ_NUM": null
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-984a9c7f-2372-3b8f-9ff5-93a9f94f2eb7.json b/test/data/enm/study-NWKI-ef516d0f-83b9-4325-9568-401a03384707.json
index a57ae76..a57ae76 100644
--- a/test/data/enm/study-NWKI-984a9c7f-2372-3b8f-9ff5-93a9f94f2eb7.json
+++ b/test/data/enm/study-NWKI-ef516d0f-83b9-4325-9568-401a03384707.json
diff --git a/test/data/enm/study-NWKI-efd2642b-ae04-4bf4-a43e-d43799c9bdce.json b/test/data/enm/study-NWKI-efd2642b-ae04-4bf4-a43e-d43799c9bdce.json
new file mode 100644
index 0000000..6118637
--- /dev/null
+++ b/test/data/enm/study-NWKI-efd2642b-ae04-4bf4-a43e-d43799c9bdce.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-efd2642b-ae04-4bf4-a43e-d43799c9bdce",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 1,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f00c75cc-5a1b-47b5-8ae1-8ae1db6d98ae.json b/test/data/enm/study-NWKI-f00c75cc-5a1b-47b5-8ae1-8ae1db6d98ae.json
new file mode 100644
index 0000000..6e390b6
--- /dev/null
+++ b/test/data/enm/study-NWKI-f00c75cc-5a1b-47b5-8ae1-8ae1db6d98ae.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-f00c75cc-5a1b-47b5-8ae1-8ae1db6d98ae",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 12.5,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-f083093f-b798-43b1-a9a5-774ca6a07ace.json b/test/data/enm/study-NWKI-f083093f-b798-43b1-a9a5-774ca6a07ace.json
new file mode 100644
index 0000000..993f896
--- /dev/null
+++ b/test/data/enm/study-NWKI-f083093f-b798-43b1-a9a5-774ca6a07ace.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-f083093f-b798-43b1-a9a5-774ca6a07ace",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 50,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff.json b/test/data/enm/study-NWKI-f0c20fa3-8c0b-4395-b633-0116213e3792.json
index 5ca4601..5ca4601 100644
--- a/test/data/enm/study-NWKI-4358aa69-dec1-387a-b7ea-2238198ccdff.json
+++ b/test/data/enm/study-NWKI-f0c20fa3-8c0b-4395-b633-0116213e3792.json
diff --git a/test/data/enm/study-NWKI-a2d5a729-4ed1-3f1b-a5fd-3bd090a48aa5.json b/test/data/enm/study-NWKI-f17de7b3-3545-4488-a373-01a207c8230b.json
index 0f633d7..0f633d7 100644
--- a/test/data/enm/study-NWKI-a2d5a729-4ed1-3f1b-a5fd-3bd090a48aa5.json
+++ b/test/data/enm/study-NWKI-f17de7b3-3545-4488-a373-01a207c8230b.json
diff --git a/test/data/enm/study-NWKI-8ef21404-e101-37c8-8206-32f526d75012.json b/test/data/enm/study-NWKI-f1c00d50-7b3c-4380-9611-7796fcb6605a.json
index eeb7d68..eeb7d68 100644
--- a/test/data/enm/study-NWKI-8ef21404-e101-37c8-8206-32f526d75012.json
+++ b/test/data/enm/study-NWKI-f1c00d50-7b3c-4380-9611-7796fcb6605a.json
diff --git a/test/data/enm/study-NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863.json b/test/data/enm/study-NWKI-f1e1f762-cb0e-4758-8242-9dbeba51898c.json
index 0a77700..0a77700 100644
--- a/test/data/enm/study-NWKI-72ead9c0-f7c1-36f4-98c4-92faa7e81863.json
+++ b/test/data/enm/study-NWKI-f1e1f762-cb0e-4758-8242-9dbeba51898c.json
diff --git a/test/data/enm/study-NWKI-de03994b-9d74-3e39-aa41-e7df34384442.json b/test/data/enm/study-NWKI-f2c1af5b-2d28-4124-a88c-53fefaa4fff6.json
index d3b0335..d3b0335 100644
--- a/test/data/enm/study-NWKI-de03994b-9d74-3e39-aa41-e7df34384442.json
+++ b/test/data/enm/study-NWKI-f2c1af5b-2d28-4124-a88c-53fefaa4fff6.json
diff --git a/test/data/enm/study-NWKI-f3be029d-68f6-310a-87a4-ceffee1b4eda.json b/test/data/enm/study-NWKI-f348dc52-e4ed-4222-8b25-8c60b5a9b082.json
index a5c5ef3..a5c5ef3 100644
--- a/test/data/enm/study-NWKI-f3be029d-68f6-310a-87a4-ceffee1b4eda.json
+++ b/test/data/enm/study-NWKI-f348dc52-e4ed-4222-8b25-8c60b5a9b082.json
diff --git a/test/data/enm/study-NWKI-d1c31022-c044-30fa-931e-07d96b6f04b5.json b/test/data/enm/study-NWKI-f34bd7ea-23f0-4914-9e8d-fc373f03a50e.json
index c8ebcc6..c8ebcc6 100644
--- a/test/data/enm/study-NWKI-d1c31022-c044-30fa-931e-07d96b6f04b5.json
+++ b/test/data/enm/study-NWKI-f34bd7ea-23f0-4914-9e8d-fc373f03a50e.json
diff --git a/test/data/enm/study-NWKI-f39c022c-a485-442c-8921-f798d46857cc.json b/test/data/enm/study-NWKI-f39c022c-a485-442c-8921-f798d46857cc.json
new file mode 100644
index 0000000..4250c79
--- /dev/null
+++ b/test/data/enm/study-NWKI-f39c022c-a485-442c-8921-f798d46857cc.json
@@ -0,0 +1,61 @@
+{
+  "uuid": "NWKI-f39c022c-a485-442c-8921-f798d46857cc",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.3762/bjnano.5.151",
+    "year": "2014",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Percentage Viable Cells",
+    "guideline": [
+      "MTT reduction assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "Caco-2 cell",
+    "Method type": "MTT reduction assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "Percentage_Viable_Cells",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 60,
+          "unit": "µg/mL"
+        },
+        "Incubation Time": {
+          "loValue": 4
+        }
+      },
+      "result": {
+        "unit": null,
+        "loValue": 98
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0.json b/test/data/enm/study-NWKI-f3f409b5-312e-4c14-bd8b-86983cbb69be.json
index 3c79f57..3c79f57 100644
--- a/test/data/enm/study-NWKI-c4c91023-5b41-3d6d-bb4f-ee1152926be0.json
+++ b/test/data/enm/study-NWKI-f3f409b5-312e-4c14-bd8b-86983cbb69be.json
diff --git a/test/data/enm/study-NWKI-509caa0e-0b8c-30e9-9592-48c6a83fe4ec.json b/test/data/enm/study-NWKI-f4b25191-fdc0-42ad-a381-8d7a2d240077.json
index 8b0456d..8b0456d 100644
--- a/test/data/enm/study-NWKI-509caa0e-0b8c-30e9-9592-48c6a83fe4ec.json
+++ b/test/data/enm/study-NWKI-f4b25191-fdc0-42ad-a381-8d7a2d240077.json
diff --git a/test/data/enm/study-NWKI-e6ef5597-a3f9-3f21-afff-db5f654ef534.json b/test/data/enm/study-NWKI-f574b0be-00ea-4407-b36f-f23425acddc7.json
index fe318ef..fe318ef 100644
--- a/test/data/enm/study-NWKI-e6ef5597-a3f9-3f21-afff-db5f654ef534.json
+++ b/test/data/enm/study-NWKI-f574b0be-00ea-4407-b36f-f23425acddc7.json
diff --git a/test/data/enm/study-NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1.json b/test/data/enm/study-NWKI-f5b23bcd-efc3-4a65-ab24-d34b0d2c6e92.json
index fd5296e..fd5296e 100644
--- a/test/data/enm/study-NWKI-0a6e319e-71fc-37f7-b88d-fbda2e07ccc1.json
+++ b/test/data/enm/study-NWKI-f5b23bcd-efc3-4a65-ab24-d34b0d2c6e92.json
diff --git a/test/data/enm/study-NWKI-c10e9034-a37c-37f8-afa4-b0e1081c6856.json b/test/data/enm/study-NWKI-f5b27205-883e-4ca5-9b36-dcff899424e7.json
index c99a23b..c99a23b 100644
--- a/test/data/enm/study-NWKI-c10e9034-a37c-37f8-afa4-b0e1081c6856.json
+++ b/test/data/enm/study-NWKI-f5b27205-883e-4ca5-9b36-dcff899424e7.json
diff --git a/test/data/enm/study-NWKI-395bf212-b710-3385-9c23-715a7055b015.json b/test/data/enm/study-NWKI-f5ca7f44-a8bf-4334-b09e-5ef6d04d3dac.json
index fcd5501..fcd5501 100644
--- a/test/data/enm/study-NWKI-395bf212-b710-3385-9c23-715a7055b015.json
+++ b/test/data/enm/study-NWKI-f5ca7f44-a8bf-4334-b09e-5ef6d04d3dac.json
diff --git a/test/data/enm/study-NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00.json b/test/data/enm/study-NWKI-f5e2ff69-a30f-4e11-b174-919b40b307a3.json
index 4ee19d0..4ee19d0 100644
--- a/test/data/enm/study-NWKI-417f0133-8f2c-3255-bdcf-7d71ac295d00.json
+++ b/test/data/enm/study-NWKI-f5e2ff69-a30f-4e11-b174-919b40b307a3.json
diff --git a/test/data/enm/study-NWKI-e518c122-5f4f-3611-8b30-56b671883e5c.json b/test/data/enm/study-NWKI-f5f44a99-a481-4795-83f3-f4a111bb155d.json
index 05a41c4..05a41c4 100644
--- a/test/data/enm/study-NWKI-e518c122-5f4f-3611-8b30-56b671883e5c.json
+++ b/test/data/enm/study-NWKI-f5f44a99-a481-4795-83f3-f4a111bb155d.json
diff --git a/test/data/enm/study-NWKI-57a03b07-0bb6-306c-ba30-71d5bc626385.json b/test/data/enm/study-NWKI-f618f090-2592-422e-834b-c043e330167f.json
index a62856c..a62856c 100644
--- a/test/data/enm/study-NWKI-57a03b07-0bb6-306c-ba30-71d5bc626385.json
+++ b/test/data/enm/study-NWKI-f618f090-2592-422e-834b-c043e330167f.json
diff --git a/test/data/enm/study-NWKI-b110d018-6de0-303b-afcc-6a5e1f5911aa.json b/test/data/enm/study-NWKI-f698f09b-0fe8-49a5-9653-1e19d87e87d4.json
index 35709bc..35709bc 100644
--- a/test/data/enm/study-NWKI-b110d018-6de0-303b-afcc-6a5e1f5911aa.json
+++ b/test/data/enm/study-NWKI-f698f09b-0fe8-49a5-9653-1e19d87e87d4.json
diff --git a/test/data/enm/study-NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764.json b/test/data/enm/study-NWKI-f70949ca-c8fc-4c53-9289-cfb49bbe721b.json
index af5b6a2..af5b6a2 100644
--- a/test/data/enm/study-NWKI-ec00c05f-0b35-3c5a-b16f-7a3560213764.json
+++ b/test/data/enm/study-NWKI-f70949ca-c8fc-4c53-9289-cfb49bbe721b.json
diff --git a/test/data/enm/study-NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c.json b/test/data/enm/study-NWKI-f72b366c-8a43-46dc-a05b-1a27ef7bf17d.json
index 5acea5b..5acea5b 100644
--- a/test/data/enm/study-NWKI-97103918-5eeb-36a3-9981-3aa6dcef5d4c.json
+++ b/test/data/enm/study-NWKI-f72b366c-8a43-46dc-a05b-1a27ef7bf17d.json
diff --git a/test/data/enm/study-NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19.json b/test/data/enm/study-NWKI-f78a6697-ef20-470a-9472-b92cb085f363.json
index f1823aa..f1823aa 100644
--- a/test/data/enm/study-NWKI-8667bfb7-a5da-3eb0-b9d7-86e2c8f06f19.json
+++ b/test/data/enm/study-NWKI-f78a6697-ef20-470a-9472-b92cb085f363.json
diff --git a/test/data/enm/study-NWKI-ea48c37d-840a-30d2-9740-1198a7e2c3b6.json b/test/data/enm/study-NWKI-f7a33447-5ffe-43d7-a7cd-744d88a99dde.json
index 009e69b..009e69b 100644
--- a/test/data/enm/study-NWKI-ea48c37d-840a-30d2-9740-1198a7e2c3b6.json
+++ b/test/data/enm/study-NWKI-f7a33447-5ffe-43d7-a7cd-744d88a99dde.json
diff --git a/test/data/enm/study-NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab.json b/test/data/enm/study-NWKI-f7b60875-d81f-4dcb-87d0-2eaf6608c658.json
index 5bb85ce..5bb85ce 100644
--- a/test/data/enm/study-NWKI-916751bb-8457-3844-87c0-ada4c6afd1ab.json
+++ b/test/data/enm/study-NWKI-f7b60875-d81f-4dcb-87d0-2eaf6608c658.json
diff --git a/test/data/enm/study-NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee.json b/test/data/enm/study-NWKI-f7d03856-5343-4baa-ad7a-c1c3722a2e5a.json
index 419d383..419d383 100644
--- a/test/data/enm/study-NWKI-c0927a67-d21d-37e8-932d-fb1607e58aee.json
+++ b/test/data/enm/study-NWKI-f7d03856-5343-4baa-ad7a-c1c3722a2e5a.json
diff --git a/test/data/enm/study-NWKI-5172b34a-a6f6-398f-ace6-1d30e6bc9efa.json b/test/data/enm/study-NWKI-f7eebb4f-c892-4007-a01e-e2bad43b52c4.json
index 27431f9..27431f9 100644
--- a/test/data/enm/study-NWKI-5172b34a-a6f6-398f-ace6-1d30e6bc9efa.json
+++ b/test/data/enm/study-NWKI-f7eebb4f-c892-4007-a01e-e2bad43b52c4.json
diff --git a/test/data/enm/study-NWKI-fd891814-04d2-30bc-a0b6-cc3149bf75ec.json b/test/data/enm/study-NWKI-f7f637bc-76dc-43a5-92ed-d770c4e059dc.json
index aa6c615..aa6c615 100644
--- a/test/data/enm/study-NWKI-fd891814-04d2-30bc-a0b6-cc3149bf75ec.json
+++ b/test/data/enm/study-NWKI-f7f637bc-76dc-43a5-92ed-d770c4e059dc.json
diff --git a/test/data/enm/study-NWKI-d7e38d71-0fcb-3a23-8cbe-aae4ce82b33a.json b/test/data/enm/study-NWKI-f803a531-0d74-4334-8b07-4dd5b902f43a.json
index 00c1ef4..00c1ef4 100644
--- a/test/data/enm/study-NWKI-d7e38d71-0fcb-3a23-8cbe-aae4ce82b33a.json
+++ b/test/data/enm/study-NWKI-f803a531-0d74-4334-8b07-4dd5b902f43a.json
diff --git a/test/data/enm/study-NWKI-b6c86895-1b73-39ec-8bd2-0106e77a7673.json b/test/data/enm/study-NWKI-f888f18c-4f44-4365-94ba-0bdeb0e73501.json
index 9e53eca..9e53eca 100644
--- a/test/data/enm/study-NWKI-b6c86895-1b73-39ec-8bd2-0106e77a7673.json
+++ b/test/data/enm/study-NWKI-f888f18c-4f44-4365-94ba-0bdeb0e73501.json
diff --git a/test/data/enm/study-NWKI-ce7a2667-21e4-3bd2-b1b6-bd8c298e9df4.json b/test/data/enm/study-NWKI-f88dbef8-0f07-4a03-8bec-575095c52cab.json
index dc499be..dc499be 100644
--- a/test/data/enm/study-NWKI-ce7a2667-21e4-3bd2-b1b6-bd8c298e9df4.json
+++ b/test/data/enm/study-NWKI-f88dbef8-0f07-4a03-8bec-575095c52cab.json
diff --git a/test/data/enm/study-NWKI-3fb9be70-8c15-3b78-94e7-5c3c88799818.json b/test/data/enm/study-NWKI-f96d66db-233b-4b6f-906f-302f75470d03.json
index c527736..c527736 100644
--- a/test/data/enm/study-NWKI-3fb9be70-8c15-3b78-94e7-5c3c88799818.json
+++ b/test/data/enm/study-NWKI-f96d66db-233b-4b6f-906f-302f75470d03.json
diff --git a/test/data/enm/study-NWKI-9a0a7a86-fd00-3835-9795-a4da7d9d1544.json b/test/data/enm/study-NWKI-f9da39f2-c4fe-4158-b508-d51ee55e8122.json
index 46bf611..46bf611 100644
--- a/test/data/enm/study-NWKI-9a0a7a86-fd00-3835-9795-a4da7d9d1544.json
+++ b/test/data/enm/study-NWKI-f9da39f2-c4fe-4158-b508-d51ee55e8122.json
diff --git a/test/data/enm/study-NWKI-d39efcf3-d871-34c2-ac1c-b48f35bde877.json b/test/data/enm/study-NWKI-fa7823ae-a58c-4fe5-82c5-cc4d9d952d9b.json
index b105b51..b105b51 100644
--- a/test/data/enm/study-NWKI-d39efcf3-d871-34c2-ac1c-b48f35bde877.json
+++ b/test/data/enm/study-NWKI-fa7823ae-a58c-4fe5-82c5-cc4d9d952d9b.json
diff --git a/test/data/enm/study-NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e.json b/test/data/enm/study-NWKI-fa9d23f2-583d-433a-8e54-b769125b6eac.json
index 9ad215b..9ad215b 100644
--- a/test/data/enm/study-NWKI-f9f316e8-e8a9-37f9-877f-86519b3af20e.json
+++ b/test/data/enm/study-NWKI-fa9d23f2-583d-433a-8e54-b769125b6eac.json
diff --git a/test/data/enm/study-NWKI-6b07ffd5-b573-3889-a64c-ae7cc99ff977.json b/test/data/enm/study-NWKI-fb0daa9b-a135-4e67-80bb-58735b271757.json
index 628652a..628652a 100644
--- a/test/data/enm/study-NWKI-6b07ffd5-b573-3889-a64c-ae7cc99ff977.json
+++ b/test/data/enm/study-NWKI-fb0daa9b-a135-4e67-80bb-58735b271757.json
diff --git a/test/data/enm/study-NWKI-fc270c92-d071-4d31-b421-6639903b6777.json b/test/data/enm/study-NWKI-fc270c92-d071-4d31-b421-6639903b6777.json
new file mode 100644
index 0000000..4af707d
--- /dev/null
+++ b/test/data/enm/study-NWKI-fc270c92-d071-4d31-b421-6639903b6777.json
@@ -0,0 +1,58 @@
+{
+  "uuid": "NWKI-fc270c92-d071-4d31-b421-6639903b6777",
+  "owner": {
+    "substance": {
+      "uuid": "NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc"
+    },
+    "company": {
+      "uuid": "NWKI-9f4e86d0-c85d-3e83-8249-a856659087da",
+      "name": "NanoWiki"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1002/smll.201002366",
+    "year": "2011",
+    "owner": "NanoWiki"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "Toxicity Classifier",
+    "guideline": [
+      "PI uptake assay"
+    ]
+  },
+  "parameters": {
+    "Cell line": "BEAS-2B",
+    "Method type": "PI uptake assay"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Non-toxic"
+  },
+  "effects": [
+    {
+      "endpoint": "Toxicity Classifier",
+      "conditions": {
+        "Doses/concentrations": {
+          "loValue": 6.25,
+          "unit": "mg/L"
+        }
+      },
+      "result": {
+        "unit": null,
+        "textValue": "Non-toxic"
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-NWKI-a28e83ea-54da-3391-9bca-4a8891680403.json b/test/data/enm/study-NWKI-fc688bd6-96d8-4219-a59a-2b95903bea30.json
index 9fa4517..9fa4517 100644
--- a/test/data/enm/study-NWKI-a28e83ea-54da-3391-9bca-4a8891680403.json
+++ b/test/data/enm/study-NWKI-fc688bd6-96d8-4219-a59a-2b95903bea30.json
diff --git a/test/data/enm/study-NWKI-cd7cf8fc-ebd1-3b60-827c-aa33e4d5d433.json b/test/data/enm/study-NWKI-fc6a8459-0f8c-4910-8e68-1628be59ff93.json
index cf70775..cf70775 100644
--- a/test/data/enm/study-NWKI-cd7cf8fc-ebd1-3b60-827c-aa33e4d5d433.json
+++ b/test/data/enm/study-NWKI-fc6a8459-0f8c-4910-8e68-1628be59ff93.json
diff --git a/test/data/enm/study-NWKI-17c74ed1-b289-3ca1-8477-390a588cb28c.json b/test/data/enm/study-NWKI-fc98e120-6aeb-496f-ae14-dafbad45794a.json
index 371d87d..371d87d 100644
--- a/test/data/enm/study-NWKI-17c74ed1-b289-3ca1-8477-390a588cb28c.json
+++ b/test/data/enm/study-NWKI-fc98e120-6aeb-496f-ae14-dafbad45794a.json
diff --git a/test/data/enm/study-NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc.json b/test/data/enm/study-NWKI-fd6b8b11-9ff1-4d65-be4b-ff9a0f15245f.json
index 0be1ebb..0be1ebb 100644
--- a/test/data/enm/study-NWKI-e4dab3d9-2699-3a0b-9e9c-f257088142cc.json
+++ b/test/data/enm/study-NWKI-fd6b8b11-9ff1-4d65-be4b-ff9a0f15245f.json
diff --git a/test/data/enm/study-NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5.json b/test/data/enm/study-NWKI-fda09e56-a29d-43ed-9863-8c0f8cbe0261.json
index 0657cb5..0657cb5 100644
--- a/test/data/enm/study-NWKI-e93603a1-8e0d-372a-8acf-48533b86ecb5.json
+++ b/test/data/enm/study-NWKI-fda09e56-a29d-43ed-9863-8c0f8cbe0261.json
diff --git a/test/data/enm/study-NWKI-80f9ab46-f8fe-36de-9335-17c9d1dbdba5.json b/test/data/enm/study-NWKI-ff0b4348-41cb-40e4-8d13-f8d63fd01973.json
index b35f333..b35f333 100644
--- a/test/data/enm/study-NWKI-80f9ab46-f8fe-36de-9335-17c9d1dbdba5.json
+++ b/test/data/enm/study-NWKI-ff0b4348-41cb-40e4-8d13-f8d63fd01973.json
diff --git a/test/data/enm/study-NWKI-3e42f6e5-635a-3f1e-a51a-39ce26751ec9.json b/test/data/enm/study-NWKI-ff65f97b-b115-4b5e-982e-66757a1be5ef.json
index 51cb2c0..51cb2c0 100644
--- a/test/data/enm/study-NWKI-3e42f6e5-635a-3f1e-a51a-39ce26751ec9.json
+++ b/test/data/enm/study-NWKI-ff65f97b-b115-4b5e-982e-66757a1be5ef.json
diff --git a/test/data/enm/study-NWKI-c8d9772c-e50e-3c71-986c-e45692150d71.json b/test/data/enm/study-NWKI-ff7e7c54-4e86-462d-b849-1ca11d72beb9.json
index 28f4ea2..28f4ea2 100644
--- a/test/data/enm/study-NWKI-c8d9772c-e50e-3c71-986c-e45692150d71.json
+++ b/test/data/enm/study-NWKI-ff7e7c54-4e86-462d-b849-1ca11d72beb9.json
diff --git a/test/data/enm/study-NWKI-21dbebfb-695f-3ff4-b7a4-bead2b52cf13.json b/test/data/enm/study-NWKI-ff824497-26e7-4518-af8a-3db0dbd9caf7.json
index f7d8945..f7d8945 100644
--- a/test/data/enm/study-NWKI-21dbebfb-695f-3ff4-b7a4-bead2b52cf13.json
+++ b/test/data/enm/study-NWKI-ff824497-26e7-4518-af8a-3db0dbd9caf7.json
diff --git a/test/data/enm/study-NWKI-e7bdb2a3-0b3f-3a38-8d6b-1babc6d92da1.json b/test/data/enm/study-NWKI-ff8b50e6-08e4-4741-a71a-e37ccd013707.json
index fce9b5a..fce9b5a 100644
--- a/test/data/enm/study-NWKI-e7bdb2a3-0b3f-3a38-8d6b-1babc6d92da1.json
+++ b/test/data/enm/study-NWKI-ff8b50e6-08e4-4741-a71a-e37ccd013707.json
diff --git a/test/data/enm/study-XLSX-001d8891-b389-444b-83a7-c3432b81624c.json b/test/data/enm/study-XLSX-001d8891-b389-444b-83a7-c3432b81624c.json
new file mode 100644
index 0000000..6d9dcb3
--- /dev/null
+++ b/test/data/enm/study-XLSX-001d8891-b389-444b-83a7-c3432b81624c.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-001d8891-b389-444b-83a7-c3432b81624c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "099",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "099",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "round"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-00f20ed0-d6be-485d-be1f-0fd5cfea6f45.json b/test/data/enm/study-XLSX-00f20ed0-d6be-485d-be1f-0fd5cfea6f45.json
new file mode 100644
index 0000000..3536888
--- /dev/null
+++ b/test/data/enm/study-XLSX-00f20ed0-d6be-485d-be1f-0fd5cfea6f45.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-00f20ed0-d6be-485d-be1f-0fd5cfea6f45",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "038",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "038",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "(m2/g)",
+        "loValue": 226.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-012fa9ed-275d-43bf-996d-20ee50308991.json b/test/data/enm/study-XLSX-012fa9ed-275d-43bf-996d-20ee50308991.json
new file mode 100644
index 0000000..c65c5aa
--- /dev/null
+++ b/test/data/enm/study-XLSX-012fa9ed-275d-43bf-996d-20ee50308991.json
@@ -0,0 +1,1016 @@
+{
+  "uuid": "XLSX-012fa9ed-275d-43bf-996d-20ee50308991",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aacdfad8-f3d3-39f2-b662-0d8084e283ef"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "Cell viability - cell membrane damage: Lactate dehydrogenase assay (LDH)  (CytoTox 96® Non-radioactive cytotoxicity assay - Promega, G1780) ",
+    "guideline": [
+      "Cytotoxicity using human monocyte-derived macrophages (HMDM)"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "N",
+    "CLO_0000031": "HMDM",
+    "CLO_0000031 EFO_0004443": "Karolinska University Hospital, Stockholm, Sweden - buffy coats from healthy adult blood donors ",
+    "Cell culture conditions - Serum": "FBS (Gibco, 10500) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": "0,05%",
+    "Cell line/Type - Full name": "Primary human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "Y",
+    "NPO_1961": "Y",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, R0833)"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.542
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.65
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 94.321
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 82.461
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 68.18
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 58.725
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 39.835
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 98.295
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.724
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.735
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 83.795
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 64.729
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 53.187
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 43.117
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.92
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.437
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 82.094
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 56.049
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 25.874
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 23.828
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 28.389
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 88.264
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 83.09
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 79.01
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 61.029
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 49.667
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 44.124
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 28.98
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.224
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 77.783
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 75.223
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 56.581
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 35.798
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 34.625
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 25.894
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 148.209
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 121.997
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 112.79
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.73
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.256
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 86.975
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 54.098
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-018037bc-bef4-426c-a094-92b32a18582f.json b/test/data/enm/study-XLSX-018037bc-bef4-426c-a094-92b32a18582f.json
new file mode 100644
index 0000000..dc51167
--- /dev/null
+++ b/test/data/enm/study-XLSX-018037bc-bef4-426c-a094-92b32a18582f.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "XLSX-018037bc-bef4-426c-a094-92b32a18582f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "001",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "001",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-02dec166-417c-4bc9-8a9b-c5f7c2890b63.json b/test/data/enm/study-XLSX-02dec166-417c-4bc9-8a9b-c5f7c2890b63.json
new file mode 100644
index 0000000..e917391
--- /dev/null
+++ b/test/data/enm/study-XLSX-02dec166-417c-4bc9-8a9b-c5f7c2890b63.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-02dec166-417c-4bc9-8a9b-c5f7c2890b63",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "160",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "160",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SH-SY5Y",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 137.227
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 487.559
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.013
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0429b441-611d-45f6-b8aa-e50ba7e8f82d.json b/test/data/enm/study-XLSX-0429b441-611d-45f6-b8aa-e50ba7e8f82d.json
new file mode 100644
index 0000000..eb56ecd
--- /dev/null
+++ b/test/data/enm/study-XLSX-0429b441-611d-45f6-b8aa-e50ba7e8f82d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0429b441-611d-45f6-b8aa-e50ba7e8f82d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "036",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "036",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 553.678
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4688.068
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 165.376
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-058e0bdc-84d9-467f-9b76-8b99e982fd01.json b/test/data/enm/study-XLSX-058e0bdc-84d9-467f-9b76-8b99e982fd01.json
new file mode 100644
index 0000000..f1331b4
--- /dev/null
+++ b/test/data/enm/study-XLSX-058e0bdc-84d9-467f-9b76-8b99e982fd01.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-058e0bdc-84d9-467f-9b76-8b99e982fd01",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-498d791a-4c0f-3eab-bb2b-bd554637d9af"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "135",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "135",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 322
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-05e344f8-3e92-4433-b1df-25613c1b2284.json b/test/data/enm/study-XLSX-05e344f8-3e92-4433-b1df-25613c1b2284.json
new file mode 100644
index 0000000..25638f2
--- /dev/null
+++ b/test/data/enm/study-XLSX-05e344f8-3e92-4433-b1df-25613c1b2284.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-05e344f8-3e92-4433-b1df-25613c1b2284",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "024",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "024",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 160.756
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 250.049
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.572
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-075a1a1e-f09b-463e-ace6-453b2109941a.json b/test/data/enm/study-XLSX-075a1a1e-f09b-463e-ace6-453b2109941a.json
new file mode 100644
index 0000000..408cf94
--- /dev/null
+++ b/test/data/enm/study-XLSX-075a1a1e-f09b-463e-ace6-453b2109941a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-075a1a1e-f09b-463e-ace6-453b2109941a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "012",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "012",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 81.573
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 185.668
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.164
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0768a016-0b68-4992-a896-ce2a9dadca36.json b/test/data/enm/study-XLSX-0768a016-0b68-4992-a896-ce2a9dadca36.json
new file mode 100644
index 0000000..72d091b
--- /dev/null
+++ b/test/data/enm/study-XLSX-0768a016-0b68-4992-a896-ce2a9dadca36.json
@@ -0,0 +1,1016 @@
+{
+  "uuid": "XLSX-0768a016-0b68-4992-a896-ce2a9dadca36",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-b4e4a8e9-6d27-3218-a243-7aa30560adb1"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "Cell viability - cell membrane damage: Lactate dehydrogenase assay (LDH)  (CytoTox 96® Non-radioactive cytotoxicity assay - Promega, G1780) ",
+    "guideline": [
+      "Cytotoxicity using human monocyte-derived macrophages (HMDM)"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "N",
+    "CLO_0000031": "HMDM",
+    "CLO_0000031 EFO_0004443": "Karolinska University Hospital, Stockholm, Sweden - buffy coats from healthy adult blood donors ",
+    "Cell culture conditions - Serum": "FBS (Gibco, 10500) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": "0,05%",
+    "Cell line/Type - Full name": "Primary human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "Y",
+    "NPO_1961": "Y",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, R0833)"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.376
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 95.98
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.507
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 94.882
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.985
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.109
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 77.37
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 103.739
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.574
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.473
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.827
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.473
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.108
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.666
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.371
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.324
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.424
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.868
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 79.298
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 83.237
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 78.43
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.007
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 86.814
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 73.76
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 67.005
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 68.435
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 66.78
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 52.622
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.652
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.48
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 85.023
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 74.673
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 71.709
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 72.678
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 61.105
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 118.083
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 121.026
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 139.29
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 53.388
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 53.162
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 75.72
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 43.694
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-07ccb8b4-5cc7-4b87-8627-c6e3c1833de3.json b/test/data/enm/study-XLSX-07ccb8b4-5cc7-4b87-8627-c6e3c1833de3.json
new file mode 100644
index 0000000..144eccf
--- /dev/null
+++ b/test/data/enm/study-XLSX-07ccb8b4-5cc7-4b87-8627-c6e3c1833de3.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-07ccb8b4-5cc7-4b87-8627-c6e3c1833de3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "107",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "107",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 87
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0833c070-e1d1-42cf-90da-eda8083970fa.json b/test/data/enm/study-XLSX-0833c070-e1d1-42cf-90da-eda8083970fa.json
new file mode 100644
index 0000000..6e89101
--- /dev/null
+++ b/test/data/enm/study-XLSX-0833c070-e1d1-42cf-90da-eda8083970fa.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-0833c070-e1d1-42cf-90da-eda8083970fa",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "160",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "160",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loQualifier": ">=",
+        "loValue": 45,
+        "upQualifier": "<=",
+        "upValue": 55
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-093abfa8-d084-45dc-9d3f-c2b754cebd5a.json b/test/data/enm/study-XLSX-093abfa8-d084-45dc-9d3f-c2b754cebd5a.json
new file mode 100644
index 0000000..6d4f2f1
--- /dev/null
+++ b/test/data/enm/study-XLSX-093abfa8-d084-45dc-9d3f-c2b754cebd5a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-093abfa8-d084-45dc-9d3f-c2b754cebd5a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "156",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "156",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3375.734
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4444.517
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 42.751
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-09b11309-62b3-458c-8178-941b9367bc9a.json b/test/data/enm/study-XLSX-09b11309-62b3-458c-8178-941b9367bc9a.json
new file mode 100644
index 0000000..8a5ea73
--- /dev/null
+++ b/test/data/enm/study-XLSX-09b11309-62b3-458c-8178-941b9367bc9a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-09b11309-62b3-458c-8178-941b9367bc9a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "035",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "035",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.081
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.153
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.643
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0b932d4a-0c45-4c31-8566-4d10d5b941cd.json b/test/data/enm/study-XLSX-0b932d4a-0c45-4c31-8566-4d10d5b941cd.json
new file mode 100644
index 0000000..31f9229
--- /dev/null
+++ b/test/data/enm/study-XLSX-0b932d4a-0c45-4c31-8566-4d10d5b941cd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-0b932d4a-0c45-4c31-8566-4d10d5b941cd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7677801c-4895-3ffd-807a-832c589341df"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "151",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "151",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0cb8d5dc-04c5-4219-9810-395fde33e6fe.json b/test/data/enm/study-XLSX-0cb8d5dc-04c5-4219-9810-395fde33e6fe.json
new file mode 100644
index 0000000..a0b2a93
--- /dev/null
+++ b/test/data/enm/study-XLSX-0cb8d5dc-04c5-4219-9810-395fde33e6fe.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0cb8d5dc-04c5-4219-9810-395fde33e6fe",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "022",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "022",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 48.179
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 142.862
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.787
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0cde3527-03c7-4dcd-96d8-3ce8ca1a0ddf.json b/test/data/enm/study-XLSX-0cde3527-03c7-4dcd-96d8-3ce8ca1a0ddf.json
new file mode 100644
index 0000000..26d9cd0
--- /dev/null
+++ b/test/data/enm/study-XLSX-0cde3527-03c7-4dcd-96d8-3ce8ca1a0ddf.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0cde3527-03c7-4dcd-96d8-3ce8ca1a0ddf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a0d9ab63-ee03-3224-984a-4bd276e3ea3a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "143",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "143",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NIH/3T3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 144,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.097
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.02
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.117
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0f1baa67-be27-4500-82f5-f5d695119ec0.json b/test/data/enm/study-XLSX-0f1baa67-be27-4500-82f5-f5d695119ec0.json
new file mode 100644
index 0000000..5e12dde
--- /dev/null
+++ b/test/data/enm/study-XLSX-0f1baa67-be27-4500-82f5-f5d695119ec0.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0f1baa67-be27-4500-82f5-f5d695119ec0",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7e2b0550-595b-3427-b6f3-b84211a5c402"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "019",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "019",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.982
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 36.171
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.688
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0f27cd90-05cb-4d6c-8d38-e09acd7f2ebd.json b/test/data/enm/study-XLSX-0f27cd90-05cb-4d6c-8d38-e09acd7f2ebd.json
new file mode 100644
index 0000000..aec2e83
--- /dev/null
+++ b/test/data/enm/study-XLSX-0f27cd90-05cb-4d6c-8d38-e09acd7f2ebd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-0f27cd90-05cb-4d6c-8d38-e09acd7f2ebd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "183",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "183",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio of 1 (20–250 nm and 400 nm) and 2:7,5 (50-350 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0f82a6fb-2e01-4096-a414-6d17e18ffad5.json b/test/data/enm/study-XLSX-0f82a6fb-2e01-4096-a414-6d17e18ffad5.json
new file mode 100644
index 0000000..54e285f
--- /dev/null
+++ b/test/data/enm/study-XLSX-0f82a6fb-2e01-4096-a414-6d17e18ffad5.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0f82a6fb-2e01-4096-a414-6d17e18ffad5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "124",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "124",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 90.903
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 145.402
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0f8786fb-d044-4b31-941f-a408fbdc4c2e.json b/test/data/enm/study-XLSX-0f8786fb-d044-4b31-941f-a408fbdc4c2e.json
new file mode 100644
index 0000000..a03a4ee
--- /dev/null
+++ b/test/data/enm/study-XLSX-0f8786fb-d044-4b31-941f-a408fbdc4c2e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0f8786fb-d044-4b31-941f-a408fbdc4c2e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-75ca4d9f-546f-3d7d-a24e-d0d54809cbb3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "039",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "039",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 270.989
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4684.556
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 176.543
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0fd4da11-35df-4405-b3b6-c3bf292c198e.json b/test/data/enm/study-XLSX-0fd4da11-35df-4405-b3b6-c3bf292c198e.json
new file mode 100644
index 0000000..22c49d3
--- /dev/null
+++ b/test/data/enm/study-XLSX-0fd4da11-35df-4405-b3b6-c3bf292c198e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-0fd4da11-35df-4405-b3b6-c3bf292c198e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "185",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "185",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.05
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 211.139
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 350.807
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5.587
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1005b3f5-639d-48e8-8f4e-962006996f96.json b/test/data/enm/study-XLSX-1005b3f5-639d-48e8-8f4e-962006996f96.json
new file mode 100644
index 0000000..90dbe4d
--- /dev/null
+++ b/test/data/enm/study-XLSX-1005b3f5-639d-48e8-8f4e-962006996f96.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1005b3f5-639d-48e8-8f4e-962006996f96",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7677801c-4895-3ffd-807a-832c589341df"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "151",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "151",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "elongated and rounded"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-10528600-01ff-4fcb-8ffd-eb1c14622464.json b/test/data/enm/study-XLSX-10528600-01ff-4fcb-8ffd-eb1c14622464.json
new file mode 100644
index 0000000..2a4c507
--- /dev/null
+++ b/test/data/enm/study-XLSX-10528600-01ff-4fcb-8ffd-eb1c14622464.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-10528600-01ff-4fcb-8ffd-eb1c14622464",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a0d9ab63-ee03-3224-984a-4bd276e3ea3a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "143",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "143",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-11423ba7-45fe-47f7-aa2f-1021853503a8.json b/test/data/enm/study-XLSX-11423ba7-45fe-47f7-aa2f-1021853503a8.json
new file mode 100644
index 0000000..46394d0
--- /dev/null
+++ b/test/data/enm/study-XLSX-11423ba7-45fe-47f7-aa2f-1021853503a8.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-11423ba7-45fe-47f7-aa2f-1021853503a8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "012",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "012",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 44.8
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 500
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-115502dc-3a59-4d3c-b0e6-14ae7f7dd05e.json b/test/data/enm/study-XLSX-115502dc-3a59-4d3c-b0e6-14ae7f7dd05e.json
new file mode 100644
index 0000000..69cb005
--- /dev/null
+++ b/test/data/enm/study-XLSX-115502dc-3a59-4d3c-b0e6-14ae7f7dd05e.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-115502dc-3a59-4d3c-b0e6-14ae7f7dd05e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "075",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "075",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.08
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b4e4a8e9-6d27-3218-a243-7aa30560adb1.json b/test/data/enm/study-XLSX-116c7102-9677-4acb-9923-e13a326e0848.json
index 28c31d8..28c31d8 100644
--- a/test/data/enm/study-XLSX-b4e4a8e9-6d27-3218-a243-7aa30560adb1.json
+++ b/test/data/enm/study-XLSX-116c7102-9677-4acb-9923-e13a326e0848.json
diff --git a/test/data/enm/study-XLSX-11ef2efa-2bf7-48b3-8c89-e3b993f25ff8.json b/test/data/enm/study-XLSX-11ef2efa-2bf7-48b3-8c89-e3b993f25ff8.json
new file mode 100644
index 0000000..f6394e6
--- /dev/null
+++ b/test/data/enm/study-XLSX-11ef2efa-2bf7-48b3-8c89-e3b993f25ff8.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-11ef2efa-2bf7-48b3-8c89-e3b993f25ff8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-56c58705-05c6-304f-bb42-a3a328e06319"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "182",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "182",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio of 1 (20–250 nm and 400 nm) and 2:7,5 (50-350 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-124615d0-026f-447e-989d-130ae65fc29a.json b/test/data/enm/study-XLSX-124615d0-026f-447e-989d-130ae65fc29a.json
new file mode 100644
index 0000000..f872a35
--- /dev/null
+++ b/test/data/enm/study-XLSX-124615d0-026f-447e-989d-130ae65fc29a.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-124615d0-026f-447e-989d-130ae65fc29a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7d5a7a1b-5069-3256-b796-2361afcf3bfe"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "032",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "032",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 11
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 846
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1510c9ea-dae8-44cd-a1f6-d15ce9cfb6aa.json b/test/data/enm/study-XLSX-1510c9ea-dae8-44cd-a1f6-d15ce9cfb6aa.json
new file mode 100644
index 0000000..b9a0217
--- /dev/null
+++ b/test/data/enm/study-XLSX-1510c9ea-dae8-44cd-a1f6-d15ce9cfb6aa.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-1510c9ea-dae8-44cd-a1f6-d15ce9cfb6aa",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-190fb54d-9b65-3d58-b65e-b3aae9a1f182"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "154",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "154",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1338
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-151a3b5f-21cc-4eae-a99e-5a3776271a9f.json b/test/data/enm/study-XLSX-151a3b5f-21cc-4eae-a99e-5a3776271a9f.json
new file mode 100644
index 0000000..a2fe805
--- /dev/null
+++ b/test/data/enm/study-XLSX-151a3b5f-21cc-4eae-a99e-5a3776271a9f.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-151a3b5f-21cc-4eae-a99e-5a3776271a9f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ade46bc8-d87f-3f9b-afd0-11ca32e5caeb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "178",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "178",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 170
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 180
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-15394a5e-dc9c-4109-a703-48bfece9354e.json b/test/data/enm/study-XLSX-15394a5e-dc9c-4109-a703-48bfece9354e.json
new file mode 100644
index 0000000..3637bf3
--- /dev/null
+++ b/test/data/enm/study-XLSX-15394a5e-dc9c-4109-a703-48bfece9354e.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-15394a5e-dc9c-4109-a703-48bfece9354e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "192",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "192",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-15ffea9f-f9f9-4601-bf6a-4176fd20c40d.json b/test/data/enm/study-XLSX-15ffea9f-f9f9-4601-bf6a-4176fd20c40d.json
new file mode 100644
index 0000000..4a4220c
--- /dev/null
+++ b/test/data/enm/study-XLSX-15ffea9f-f9f9-4601-bf6a-4176fd20c40d.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-15ffea9f-f9f9-4601-bf6a-4176fd20c40d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "184",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "184",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 77.992
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-166efb6a-eae4-481e-810b-57e1a6712b78.json b/test/data/enm/study-XLSX-166efb6a-eae4-481e-810b-57e1a6712b78.json
new file mode 100644
index 0000000..7a7c325
--- /dev/null
+++ b/test/data/enm/study-XLSX-166efb6a-eae4-481e-810b-57e1a6712b78.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-166efb6a-eae4-481e-810b-57e1a6712b78",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "111",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "111",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 101.589
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 111.998
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.416
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-16b44d12-07d4-4c81-97f8-e5068e683d8a.json b/test/data/enm/study-XLSX-16b44d12-07d4-4c81-97f8-e5068e683d8a.json
new file mode 100644
index 0000000..3bb068e
--- /dev/null
+++ b/test/data/enm/study-XLSX-16b44d12-07d4-4c81-97f8-e5068e683d8a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-16b44d12-07d4-4c81-97f8-e5068e683d8a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ad0a7571-a887-3611-a508-f32ad71f20be"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "079",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "079",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.732
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.308
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.103
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-178be221-af2d-46a4-a9c4-6cd303bf0f89.json b/test/data/enm/study-XLSX-178be221-af2d-46a4-a9c4-6cd303bf0f89.json
new file mode 100644
index 0000000..3d2997b
--- /dev/null
+++ b/test/data/enm/study-XLSX-178be221-af2d-46a4-a9c4-6cd303bf0f89.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-178be221-af2d-46a4-a9c4-6cd303bf0f89",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "101",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "101",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 80.042
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 144.629
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.583
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-17b4b278-d0e5-4244-bec4-5bd49c1c5b2e.json b/test/data/enm/study-XLSX-17b4b278-d0e5-4244-bec4-5bd49c1c5b2e.json
new file mode 100644
index 0000000..a5577e6
--- /dev/null
+++ b/test/data/enm/study-XLSX-17b4b278-d0e5-4244-bec4-5bd49c1c5b2e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-17b4b278-d0e5-4244-bec4-5bd49c1c5b2e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "023",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "023",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 494.201
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1090.024
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23.833
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1828e284-b60f-4786-b26d-d581c7856f1e.json b/test/data/enm/study-XLSX-1828e284-b60f-4786-b26d-d581c7856f1e.json
new file mode 100644
index 0000000..b5640ed
--- /dev/null
+++ b/test/data/enm/study-XLSX-1828e284-b60f-4786-b26d-d581c7856f1e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-1828e284-b60f-4786-b26d-d581c7856f1e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "025",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "025",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1654.555
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2178.131
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 20.943
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-18ffa080-b48e-461b-960c-e23577e9011d.json b/test/data/enm/study-XLSX-18ffa080-b48e-461b-960c-e23577e9011d.json
new file mode 100644
index 0000000..fc20d3b
--- /dev/null
+++ b/test/data/enm/study-XLSX-18ffa080-b48e-461b-960c-e23577e9011d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-18ffa080-b48e-461b-960c-e23577e9011d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "110",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "110",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1926.134
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2881.251
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 38.205
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1a102274-4a1c-4401-b0fd-b7e4db80dd2d.json b/test/data/enm/study-XLSX-1a102274-4a1c-4401-b0fd-b7e4db80dd2d.json
new file mode 100644
index 0000000..bdb01a9
--- /dev/null
+++ b/test/data/enm/study-XLSX-1a102274-4a1c-4401-b0fd-b7e4db80dd2d.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1a102274-4a1c-4401-b0fd-b7e4db80dd2d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-56c58705-05c6-304f-bb42-a3a328e06319"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "182",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "182",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1ac4715c-b706-4b43-9ec9-323a6b11e21a.json b/test/data/enm/study-XLSX-1ac4715c-b706-4b43-9ec9-323a6b11e21a.json
new file mode 100644
index 0000000..71cc706
--- /dev/null
+++ b/test/data/enm/study-XLSX-1ac4715c-b706-4b43-9ec9-323a6b11e21a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-1ac4715c-b706-4b43-9ec9-323a6b11e21a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-945d75a3-50b7-3655-8979-376d39096378"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "030",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "030",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 302.112
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2078.222
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 71.044
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1b097f33-a770-4c45-99f4-9d400e1bc809.json b/test/data/enm/study-XLSX-1b097f33-a770-4c45-99f4-9d400e1bc809.json
new file mode 100644
index 0000000..424c90d
--- /dev/null
+++ b/test/data/enm/study-XLSX-1b097f33-a770-4c45-99f4-9d400e1bc809.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1b097f33-a770-4c45-99f4-9d400e1bc809",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d7807f7-a13b-392f-88af-fe7885a67502"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "170",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "170",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1b1c6745-05b3-46ef-a322-f2399b831032.json b/test/data/enm/study-XLSX-1b1c6745-05b3-46ef-a322-f2399b831032.json
new file mode 100644
index 0000000..f7d550d
--- /dev/null
+++ b/test/data/enm/study-XLSX-1b1c6745-05b3-46ef-a322-f2399b831032.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-1b1c6745-05b3-46ef-a322-f2399b831032",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ad0a7571-a887-3611-a508-f32ad71f20be"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "079",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "079",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.08
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.08
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1c2549a4-d71e-4f9e-9d92-aa002568b9d9.json b/test/data/enm/study-XLSX-1c2549a4-d71e-4f9e-9d92-aa002568b9d9.json
new file mode 100644
index 0000000..6eb1692
--- /dev/null
+++ b/test/data/enm/study-XLSX-1c2549a4-d71e-4f9e-9d92-aa002568b9d9.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1c2549a4-d71e-4f9e-9d92-aa002568b9d9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "184",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "184",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "circles, ellipses, rectangles or squares"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1d43008c-9331-43a7-b5ef-79ecc1c85fe2.json b/test/data/enm/study-XLSX-1d43008c-9331-43a7-b5ef-79ecc1c85fe2.json
new file mode 100644
index 0000000..9e34576
--- /dev/null
+++ b/test/data/enm/study-XLSX-1d43008c-9331-43a7-b5ef-79ecc1c85fe2.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1d43008c-9331-43a7-b5ef-79ecc1c85fe2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "134",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "134",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2 g−1",
+        "loValue": 56
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1db4a2e8-b624-48b8-95be-c09f7af79adc.json b/test/data/enm/study-XLSX-1db4a2e8-b624-48b8-95be-c09f7af79adc.json
new file mode 100644
index 0000000..9ff7ba1
--- /dev/null
+++ b/test/data/enm/study-XLSX-1db4a2e8-b624-48b8-95be-c09f7af79adc.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-1db4a2e8-b624-48b8-95be-c09f7af79adc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-58c9f610-0fef-3009-8112-6ea05d863644"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "168",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "168",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1df27ead-0ce1-4b88-b3f5-6c738d2d2393.json b/test/data/enm/study-XLSX-1df27ead-0ce1-4b88-b3f5-6c738d2d2393.json
new file mode 100644
index 0000000..c8c5268
--- /dev/null
+++ b/test/data/enm/study-XLSX-1df27ead-0ce1-4b88-b3f5-6c738d2d2393.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-1df27ead-0ce1-4b88-b3f5-6c738d2d2393",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "071",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "071",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 1,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 45.546
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 145.33
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.991
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1df396e3-b0b0-48f5-a227-1d9ed7f08c1f.json b/test/data/enm/study-XLSX-1df396e3-b0b0-48f5-a227-1d9ed7f08c1f.json
new file mode 100644
index 0000000..8ed19db
--- /dev/null
+++ b/test/data/enm/study-XLSX-1df396e3-b0b0-48f5-a227-1d9ed7f08c1f.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-1df396e3-b0b0-48f5-a227-1d9ed7f08c1f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-12620892-23e5-37f4-9644-a82c4240d695"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "150",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "150",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "mES",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 240,
+    "Serum concentration,%": 0.15
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.691
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23.02
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.333
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1fa5b4c0-a1b6-479b-9b82-9a6dc476ef0f.json b/test/data/enm/study-XLSX-1fa5b4c0-a1b6-479b-9b82-9a6dc476ef0f.json
new file mode 100644
index 0000000..e09bc69
--- /dev/null
+++ b/test/data/enm/study-XLSX-1fa5b4c0-a1b6-479b-9b82-9a6dc476ef0f.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-1fa5b4c0-a1b6-479b-9b82-9a6dc476ef0f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "003",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "003",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1101.763
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1496.276
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.78
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1fe9d3e6-1258-4234-a08f-9c62158b945e.json b/test/data/enm/study-XLSX-1fe9d3e6-1258-4234-a08f-9c62158b945e.json
new file mode 100644
index 0000000..b952875
--- /dev/null
+++ b/test/data/enm/study-XLSX-1fe9d3e6-1258-4234-a08f-9c62158b945e.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-1fe9d3e6-1258-4234-a08f-9c62158b945e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-56c58705-05c6-304f-bb42-a3a328e06319"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "182",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "182",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 11.8,
+        "upQualifier": "<=",
+        "upValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-20399224-20cf-4682-b63b-1039bc81695b.json b/test/data/enm/study-XLSX-20399224-20cf-4682-b63b-1039bc81695b.json
new file mode 100644
index 0000000..9fed82a
--- /dev/null
+++ b/test/data/enm/study-XLSX-20399224-20cf-4682-b63b-1039bc81695b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-20399224-20cf-4682-b63b-1039bc81695b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "105",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "105",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 156.845
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 210.467
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.145
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-22248ab3-3273-493e-ad41-52e09a44fdea.json b/test/data/enm/study-XLSX-22248ab3-3273-493e-ad41-52e09a44fdea.json
new file mode 100644
index 0000000..f851fdc
--- /dev/null
+++ b/test/data/enm/study-XLSX-22248ab3-3273-493e-ad41-52e09a44fdea.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-22248ab3-3273-493e-ad41-52e09a44fdea",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "053",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "053",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 1,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 24.379
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 65.819
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.658
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-23143cb6-d5bf-43d6-999e-9e7fb8940fe7.json b/test/data/enm/study-XLSX-23143cb6-d5bf-43d6-999e-9e7fb8940fe7.json
new file mode 100644
index 0000000..4d82985
--- /dev/null
+++ b/test/data/enm/study-XLSX-23143cb6-d5bf-43d6-999e-9e7fb8940fe7.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-23143cb6-d5bf-43d6-999e-9e7fb8940fe7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "183",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "183",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 11.8,
+        "upQualifier": "<=",
+        "upValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-23aaaee0-4bb6-4447-b9f8-6423d81d4460.json b/test/data/enm/study-XLSX-23aaaee0-4bb6-4447-b9f8-6423d81d4460.json
new file mode 100644
index 0000000..b339206
--- /dev/null
+++ b/test/data/enm/study-XLSX-23aaaee0-4bb6-4447-b9f8-6423d81d4460.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-23aaaee0-4bb6-4447-b9f8-6423d81d4460",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "018",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "018",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 65
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-23c00b7e-0c1e-4ed9-9073-70930288b37f.json b/test/data/enm/study-XLSX-23c00b7e-0c1e-4ed9-9073-70930288b37f.json
new file mode 100644
index 0000000..481ffe7
--- /dev/null
+++ b/test/data/enm/study-XLSX-23c00b7e-0c1e-4ed9-9073-70930288b37f.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-23c00b7e-0c1e-4ed9-9073-70930288b37f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-58c9f610-0fef-3009-8112-6ea05d863644"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "168",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "168",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 11.8,
+        "upQualifier": "<=",
+        "upValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-249e9ccd-a8c0-4af6-8c89-140de02e31c5.json b/test/data/enm/study-XLSX-249e9ccd-a8c0-4af6-8c89-140de02e31c5.json
new file mode 100644
index 0000000..14d1c9b
--- /dev/null
+++ b/test/data/enm/study-XLSX-249e9ccd-a8c0-4af6-8c89-140de02e31c5.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-249e9ccd-a8c0-4af6-8c89-140de02e31c5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "104",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "104",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 215.124
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 285.52
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.816
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2567f730-1b78-4437-9b91-6fe79998ec50.json b/test/data/enm/study-XLSX-2567f730-1b78-4437-9b91-6fe79998ec50.json
new file mode 100644
index 0000000..3580bff
--- /dev/null
+++ b/test/data/enm/study-XLSX-2567f730-1b78-4437-9b91-6fe79998ec50.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-2567f730-1b78-4437-9b91-6fe79998ec50",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7677801c-4895-3ffd-807a-832c589341df"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "151",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "151",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 56.261
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-259e7246-9990-49d6-af3c-5940e833c059.json b/test/data/enm/study-XLSX-259e7246-9990-49d6-af3c-5940e833c059.json
new file mode 100644
index 0000000..66cd8aa
--- /dev/null
+++ b/test/data/enm/study-XLSX-259e7246-9990-49d6-af3c-5940e833c059.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-259e7246-9990-49d6-af3c-5940e833c059",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "016",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "016",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.617
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 12.494
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.195
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-25ab373b-b8e3-42aa-aea9-ff903abae4de.json b/test/data/enm/study-XLSX-25ab373b-b8e3-42aa-aea9-ff903abae4de.json
new file mode 100644
index 0000000..406023b
--- /dev/null
+++ b/test/data/enm/study-XLSX-25ab373b-b8e3-42aa-aea9-ff903abae4de.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-25ab373b-b8e3-42aa-aea9-ff903abae4de",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-254d54ae-e3ba-36d9-8dbd-c84d2296bb24"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "142",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "142",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "mES",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 240,
+    "Serum concentration,%": 0.15
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.404
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.264
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.034
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2638bbbd-2ae0-46b0-a660-12ac80d6da80.json b/test/data/enm/study-XLSX-2638bbbd-2ae0-46b0-a660-12ac80d6da80.json
new file mode 100644
index 0000000..ec13589
--- /dev/null
+++ b/test/data/enm/study-XLSX-2638bbbd-2ae0-46b0-a660-12ac80d6da80.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2638bbbd-2ae0-46b0-a660-12ac80d6da80",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "166",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "166",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.456
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 34.073
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.785
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2641b5f1-c384-4451-ac4e-1cd0862b73b5.json b/test/data/enm/study-XLSX-2641b5f1-c384-4451-ac4e-1cd0862b73b5.json
new file mode 100644
index 0000000..c273a36
--- /dev/null
+++ b/test/data/enm/study-XLSX-2641b5f1-c384-4451-ac4e-1cd0862b73b5.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-2641b5f1-c384-4451-ac4e-1cd0862b73b5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "134",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "134",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-267757f5-aae8-4d00-ac70-960a493cdd12.json b/test/data/enm/study-XLSX-267757f5-aae8-4d00-ac70-960a493cdd12.json
new file mode 100644
index 0000000..9be3bc7
--- /dev/null
+++ b/test/data/enm/study-XLSX-267757f5-aae8-4d00-ac70-960a493cdd12.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-267757f5-aae8-4d00-ac70-960a493cdd12",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-12620892-23e5-37f4-9644-a82c4240d695"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "150",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "150",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 56.261
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-28381dd3-7257-4b83-a27f-d84dfc23c94c.json b/test/data/enm/study-XLSX-28381dd3-7257-4b83-a27f-d84dfc23c94c.json
new file mode 100644
index 0000000..eaa6621
--- /dev/null
+++ b/test/data/enm/study-XLSX-28381dd3-7257-4b83-a27f-d84dfc23c94c.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-28381dd3-7257-4b83-a27f-d84dfc23c94c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "006",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "006",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.984
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 26.585
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.744
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-28687db2-d96f-4ae7-a9e5-347348512eed.json b/test/data/enm/study-XLSX-28687db2-d96f-4ae7-a9e5-347348512eed.json
new file mode 100644
index 0000000..a7f4979
--- /dev/null
+++ b/test/data/enm/study-XLSX-28687db2-d96f-4ae7-a9e5-347348512eed.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-28687db2-d96f-4ae7-a9e5-347348512eed",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-254d54ae-e3ba-36d9-8dbd-c84d2296bb24"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "142",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "142",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2896e48d-b164-444c-a1f3-10efee60ff1b.json b/test/data/enm/study-XLSX-2896e48d-b164-444c-a1f3-10efee60ff1b.json
new file mode 100644
index 0000000..9db804a
--- /dev/null
+++ b/test/data/enm/study-XLSX-2896e48d-b164-444c-a1f3-10efee60ff1b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2896e48d-b164-444c-a1f3-10efee60ff1b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "114",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "114",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 921.917
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2602.602
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 67.227
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-28eafb1b-d6b3-433a-90b0-de8915c708e0.json b/test/data/enm/study-XLSX-28eafb1b-d6b3-433a-90b0-de8915c708e0.json
new file mode 100644
index 0000000..a055673
--- /dev/null
+++ b/test/data/enm/study-XLSX-28eafb1b-d6b3-433a-90b0-de8915c708e0.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-28eafb1b-d6b3-433a-90b0-de8915c708e0",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-c42f434e-6295-3715-8a23-ce26f87642a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "188",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "188",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 9
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-29796c5e-00be-414f-8304-b40efd9d8d5a.json b/test/data/enm/study-XLSX-29796c5e-00be-414f-8304-b40efd9d8d5a.json
new file mode 100644
index 0000000..a9d1517
--- /dev/null
+++ b/test/data/enm/study-XLSX-29796c5e-00be-414f-8304-b40efd9d8d5a.json
@@ -0,0 +1,1016 @@
+{
+  "uuid": "XLSX-29796c5e-00be-414f-8304-b40efd9d8d5a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-fa48e134-54cf-3417-a63a-6f744191cec2"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "Cell viability - cell membrane damage: Lactate dehydrogenase assay (LDH)  (CytoTox 96® Non-radioactive cytotoxicity assay - Promega, G1780) ",
+    "guideline": [
+      "Cytotoxicity using human monocyte-derived macrophages (HMDM)"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "N",
+    "CLO_0000031": "HMDM",
+    "CLO_0000031 EFO_0004443": "Karolinska University Hospital, Stockholm, Sweden - buffy coats from healthy adult blood donors ",
+    "Cell culture conditions - Serum": "FBS (Gibco, 10500) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": "0,05%",
+    "Cell line/Type - Full name": "Primary human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "Y",
+    "NPO_1961": "Y",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, R0833)"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.244
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.04
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.331
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.2
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 94.548
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.351
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 88.663
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.657
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.033
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.058
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 101.331
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 103.58
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 103.111
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.116
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 106.119
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.162
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 101.619
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.146
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.801
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 98.457
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 78.147
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 85.847
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 84.564
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 68.466
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 69.795
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 71.551
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 42.512
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 58.861
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 95.042
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.02
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 77.547
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 73.485
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 64.706
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 72.679
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 56.168
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 109.581
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 116.075
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 95.767
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 90.067
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.967
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.509
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.421
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-29a4590d-58e8-4505-af16-6b3317e95381.json b/test/data/enm/study-XLSX-29a4590d-58e8-4505-af16-6b3317e95381.json
new file mode 100644
index 0000000..7fb8791
--- /dev/null
+++ b/test/data/enm/study-XLSX-29a4590d-58e8-4505-af16-6b3317e95381.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-29a4590d-58e8-4505-af16-6b3317e95381",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "156",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "156",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -29
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2a76a600-51e5-4b9c-854f-b7a24ae94fbf.json b/test/data/enm/study-XLSX-2a76a600-51e5-4b9c-854f-b7a24ae94fbf.json
new file mode 100644
index 0000000..c54cacc
--- /dev/null
+++ b/test/data/enm/study-XLSX-2a76a600-51e5-4b9c-854f-b7a24ae94fbf.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2a76a600-51e5-4b9c-854f-b7a24ae94fbf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-64e97bde-be4b-34fb-b216-85724e66b02a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "152",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "152",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Cup Horn",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 105.565
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 187.846
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.291
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2b2f6867-cc9c-440b-97c2-df75bed08c76.json b/test/data/enm/study-XLSX-2b2f6867-cc9c-440b-97c2-df75bed08c76.json
new file mode 100644
index 0000000..4dce55c
--- /dev/null
+++ b/test/data/enm/study-XLSX-2b2f6867-cc9c-440b-97c2-df75bed08c76.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-2b2f6867-cc9c-440b-97c2-df75bed08c76",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "022",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "022",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 79
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 141
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2d3e17da-204b-4822-8543-e890ac70619a.json b/test/data/enm/study-XLSX-2d3e17da-204b-4822-8543-e890ac70619a.json
new file mode 100644
index 0000000..7d85f83
--- /dev/null
+++ b/test/data/enm/study-XLSX-2d3e17da-204b-4822-8543-e890ac70619a.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-2d3e17da-204b-4822-8543-e890ac70619a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "141",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "141",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.45
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 37.6
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 315
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2d5487cc-4302-4093-9841-3e24ebdfa7de.json b/test/data/enm/study-XLSX-2d5487cc-4302-4093-9841-3e24ebdfa7de.json
new file mode 100644
index 0000000..0df3408
--- /dev/null
+++ b/test/data/enm/study-XLSX-2d5487cc-4302-4093-9841-3e24ebdfa7de.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-2d5487cc-4302-4093-9841-3e24ebdfa7de",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "099",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "099",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Stirring"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 143
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 143
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 131
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2d64503d-3639-4667-b900-3ac40cd0ea06.json b/test/data/enm/study-XLSX-2d64503d-3639-4667-b900-3ac40cd0ea06.json
new file mode 100644
index 0000000..511e49a
--- /dev/null
+++ b/test/data/enm/study-XLSX-2d64503d-3639-4667-b900-3ac40cd0ea06.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-2d64503d-3639-4667-b900-3ac40cd0ea06",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "167",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "167",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 11.8,
+        "upQualifier": "<=",
+        "upValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2d7d8d78-73a9-43f1-9ff2-a04758ba0533.json b/test/data/enm/study-XLSX-2d7d8d78-73a9-43f1-9ff2-a04758ba0533.json
new file mode 100644
index 0000000..8acff85
--- /dev/null
+++ b/test/data/enm/study-XLSX-2d7d8d78-73a9-43f1-9ff2-a04758ba0533.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-2d7d8d78-73a9-43f1-9ff2-a04758ba0533",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "192",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "192",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 160
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 192
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2db19dc9-6f15-43fc-800a-769041dc2654.json b/test/data/enm/study-XLSX-2db19dc9-6f15-43fc-800a-769041dc2654.json
new file mode 100644
index 0000000..be087f7
--- /dev/null
+++ b/test/data/enm/study-XLSX-2db19dc9-6f15-43fc-800a-769041dc2654.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2db19dc9-6f15-43fc-800a-769041dc2654",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "107",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "107",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 80.358
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 165.824
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.419
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2e324464-52d5-47cc-8cf2-2d70d40e6266.json b/test/data/enm/study-XLSX-2e324464-52d5-47cc-8cf2-2d70d40e6266.json
new file mode 100644
index 0000000..7511750
--- /dev/null
+++ b/test/data/enm/study-XLSX-2e324464-52d5-47cc-8cf2-2d70d40e6266.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2e324464-52d5-47cc-8cf2-2d70d40e6266",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "083",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "083",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 434.784
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1152.185
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 28.696
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2e9edef4-d8c4-47c3-ae83-ae079149642c.json b/test/data/enm/study-XLSX-2e9edef4-d8c4-47c3-ae83-ae079149642c.json
new file mode 100644
index 0000000..b3678a0
--- /dev/null
+++ b/test/data/enm/study-XLSX-2e9edef4-d8c4-47c3-ae83-ae079149642c.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-2e9edef4-d8c4-47c3-ae83-ae079149642c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "123",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "123",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2ea7e225-0ab5-4525-a5a0-dbf697effaef.json b/test/data/enm/study-XLSX-2ea7e225-0ab5-4525-a5a0-dbf697effaef.json
new file mode 100644
index 0000000..75b738d
--- /dev/null
+++ b/test/data/enm/study-XLSX-2ea7e225-0ab5-4525-a5a0-dbf697effaef.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-2ea7e225-0ab5-4525-a5a0-dbf697effaef",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-56c58705-05c6-304f-bb42-a3a328e06319"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "182",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "182",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.05
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.032
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 9.734
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.068
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-301fd1d5-cd81-4641-917c-7628be4bf734.json b/test/data/enm/study-XLSX-301fd1d5-cd81-4641-917c-7628be4bf734.json
new file mode 100644
index 0000000..dd021cd
--- /dev/null
+++ b/test/data/enm/study-XLSX-301fd1d5-cd81-4641-917c-7628be4bf734.json
@@ -0,0 +1,696 @@
+{
+  "uuid": "XLSX-301fd1d5-cd81-4641-917c-7628be4bf734",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-93b2da85-fc0c-315f-8d3b-77f1a7776fb4"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "",
+    "guideline": [
+      "ELISA / TNF-α release in culture medium"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "Y",
+    "CLO_0000031": "HMDM (primary cells)",
+    "CLO_0000031 EFO_0004443": "ATCC",
+    "Cell culture conditions - Serum": "FBS (Gibco/413105K) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": 0.1,
+    "Cell line/Type - Full name": "human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "N",
+    "NPO_1961": "N",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, RNBB2729 "
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 3.092
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.627
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 3.7
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 12.022
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 13.495
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 11.939
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.904
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.839
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 0.874
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.035
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.071
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.04
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.536
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.801
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 6.024
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 3.218
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.147
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 13.019
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 12.83
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 12.336
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 18.473
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 25.681
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 22.385
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 18.916
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 21.04
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 29.97
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 26.508
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 30.14
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 43.317
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 44.152
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 51.261
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 63.261
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3064e0bc-9082-44a7-a4bd-3add51baca08.json b/test/data/enm/study-XLSX-3064e0bc-9082-44a7-a4bd-3add51baca08.json
new file mode 100644
index 0000000..d531eea
--- /dev/null
+++ b/test/data/enm/study-XLSX-3064e0bc-9082-44a7-a4bd-3add51baca08.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-3064e0bc-9082-44a7-a4bd-3add51baca08",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "113",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "113",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "subangular to rounded"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.567
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-30e50959-2e9e-4681-8da4-fc1ab241354c.json b/test/data/enm/study-XLSX-30e50959-2e9e-4681-8da4-fc1ab241354c.json
new file mode 100644
index 0000000..2e4cca6
--- /dev/null
+++ b/test/data/enm/study-XLSX-30e50959-2e9e-4681-8da4-fc1ab241354c.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-30e50959-2e9e-4681-8da4-fc1ab241354c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "144",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "144",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 132.853
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 151.197
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.734
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3161393e-b37f-4ff5-a4fd-359e79dc7cef.json b/test/data/enm/study-XLSX-3161393e-b37f-4ff5-a4fd-359e79dc7cef.json
new file mode 100644
index 0000000..253f17c
--- /dev/null
+++ b/test/data/enm/study-XLSX-3161393e-b37f-4ff5-a4fd-359e79dc7cef.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-3161393e-b37f-4ff5-a4fd-359e79dc7cef",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "026",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "026",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.3
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25.3
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-31da7451-4360-45c4-ae93-daa94821da85.json b/test/data/enm/study-XLSX-31da7451-4360-45c4-ae93-daa94821da85.json
new file mode 100644
index 0000000..8b19aed
--- /dev/null
+++ b/test/data/enm/study-XLSX-31da7451-4360-45c4-ae93-daa94821da85.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-31da7451-4360-45c4-ae93-daa94821da85",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "037",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "037",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2494.318
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 27155.059
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 986.43
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-34b4f996-cc95-4b5a-94c7-f4635657c399.json b/test/data/enm/study-XLSX-34b4f996-cc95-4b5a-94c7-f4635657c399.json
new file mode 100644
index 0000000..07dc072
--- /dev/null
+++ b/test/data/enm/study-XLSX-34b4f996-cc95-4b5a-94c7-f4635657c399.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-34b4f996-cc95-4b5a-94c7-f4635657c399",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "159",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "159",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SH-SY5Y",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 6,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1260.242
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1635.256
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.001
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-35d3520c-fa44-4fbf-9e1c-6a9495ee2f4b.json b/test/data/enm/study-XLSX-35d3520c-fa44-4fbf-9e1c-6a9495ee2f4b.json
new file mode 100644
index 0000000..f1c01d6
--- /dev/null
+++ b/test/data/enm/study-XLSX-35d3520c-fa44-4fbf-9e1c-6a9495ee2f4b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-35d3520c-fa44-4fbf-9e1c-6a9495ee2f4b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "075",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "075",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 72,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 117.272
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 305.852
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.543
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-35de3d4f-c3d6-4659-922f-b2c5f4b12237.json b/test/data/enm/study-XLSX-35de3d4f-c3d6-4659-922f-b2c5f4b12237.json
new file mode 100644
index 0000000..da7d6cd
--- /dev/null
+++ b/test/data/enm/study-XLSX-35de3d4f-c3d6-4659-922f-b2c5f4b12237.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-35de3d4f-c3d6-4659-922f-b2c5f4b12237",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "018",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "018",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -14
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-36575b6d-8c77-4be4-b386-5c71cf6e730d.json b/test/data/enm/study-XLSX-36575b6d-8c77-4be4-b386-5c71cf6e730d.json
new file mode 100644
index 0000000..d9d2631
--- /dev/null
+++ b/test/data/enm/study-XLSX-36575b6d-8c77-4be4-b386-5c71cf6e730d.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-36575b6d-8c77-4be4-b386-5c71cf6e730d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-945d75a3-50b7-3655-8979-376d39096378"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "031",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "031",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 11
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 846
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 209
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-37fcce91-c08d-4940-97fe-b7c4dec0c132.json b/test/data/enm/study-XLSX-37fcce91-c08d-4940-97fe-b7c4dec0c132.json
new file mode 100644
index 0000000..cb56554
--- /dev/null
+++ b/test/data/enm/study-XLSX-37fcce91-c08d-4940-97fe-b7c4dec0c132.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-37fcce91-c08d-4940-97fe-b7c4dec0c132",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "166",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "166",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 11.8,
+        "upQualifier": "<=",
+        "upValue": 13
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-39c0229d-4603-46be-a045-295259f1be57.json b/test/data/enm/study-XLSX-39c0229d-4603-46be-a045-295259f1be57.json
new file mode 100644
index 0000000..65407dc
--- /dev/null
+++ b/test/data/enm/study-XLSX-39c0229d-4603-46be-a045-295259f1be57.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-39c0229d-4603-46be-a045-295259f1be57",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "011",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "011",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 149.154
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 229.202
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.202
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-39fae5c8-0a37-4a1e-b0e1-27fbbc64a752.json b/test/data/enm/study-XLSX-39fae5c8-0a37-4a1e-b0e1-27fbbc64a752.json
new file mode 100644
index 0000000..93b66f4
--- /dev/null
+++ b/test/data/enm/study-XLSX-39fae5c8-0a37-4a1e-b0e1-27fbbc64a752.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-39fae5c8-0a37-4a1e-b0e1-27fbbc64a752",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "139",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "139",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1284.354
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 6807.888
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 220.941
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3afe4ec2-f95d-45b5-bec2-7688ab47e4cf.json b/test/data/enm/study-XLSX-3afe4ec2-f95d-45b5-bec2-7688ab47e4cf.json
new file mode 100644
index 0000000..cd31eb5
--- /dev/null
+++ b/test/data/enm/study-XLSX-3afe4ec2-f95d-45b5-bec2-7688ab47e4cf.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-3afe4ec2-f95d-45b5-bec2-7688ab47e4cf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "107",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "107",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 42
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 50
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 49
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3b66b438-3970-46dd-b0e2-a8c3fe971e27.json b/test/data/enm/study-XLSX-3b66b438-3970-46dd-b0e2-a8c3fe971e27.json
new file mode 100644
index 0000000..2ae5d63
--- /dev/null
+++ b/test/data/enm/study-XLSX-3b66b438-3970-46dd-b0e2-a8c3fe971e27.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-3b66b438-3970-46dd-b0e2-a8c3fe971e27",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "083",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "083",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3ec4604b-9615-4c7c-920d-ed501d0d3095.json b/test/data/enm/study-XLSX-3ec4604b-9615-4c7c-920d-ed501d0d3095.json
new file mode 100644
index 0000000..9d38dc9
--- /dev/null
+++ b/test/data/enm/study-XLSX-3ec4604b-9615-4c7c-920d-ed501d0d3095.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-3ec4604b-9615-4c7c-920d-ed501d0d3095",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "020",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "020",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 27.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3f01349b-231d-4fc6-a823-e71837ac0d0c.json b/test/data/enm/study-XLSX-3f01349b-231d-4fc6-a823-e71837ac0d0c.json
new file mode 100644
index 0000000..ed7169e
--- /dev/null
+++ b/test/data/enm/study-XLSX-3f01349b-231d-4fc6-a823-e71837ac0d0c.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-3f01349b-231d-4fc6-a823-e71837ac0d0c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5cd11301-7cf1-3402-aaf8-853e5ed8ccde"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "177",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "177",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 14.5,
+        "upQualifier": "<=",
+        "upValue": 15.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3f4d5bc2-7087-4749-9cd2-9d33e1d21774.json b/test/data/enm/study-XLSX-3f4d5bc2-7087-4749-9cd2-9d33e1d21774.json
new file mode 100644
index 0000000..c97ea97
--- /dev/null
+++ b/test/data/enm/study-XLSX-3f4d5bc2-7087-4749-9cd2-9d33e1d21774.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-3f4d5bc2-7087-4749-9cd2-9d33e1d21774",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2aef353b-440f-32a7-8447-1974997a69a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "190",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "190",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 33
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-404264d0-872c-4786-9a7e-d33621c1ede5.json b/test/data/enm/study-XLSX-404264d0-872c-4786-9a7e-d33621c1ede5.json
new file mode 100644
index 0000000..45c240b
--- /dev/null
+++ b/test/data/enm/study-XLSX-404264d0-872c-4786-9a7e-d33621c1ede5.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-404264d0-872c-4786-9a7e-d33621c1ede5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-64e97bde-be4b-34fb-b216-85724e66b02a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "153",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "153",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Cup Horn",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 129.826
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 306.435
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.064
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-40d900a9-1e08-4cf9-bc21-19f695cfb19b.json b/test/data/enm/study-XLSX-40d900a9-1e08-4cf9-bc21-19f695cfb19b.json
new file mode 100644
index 0000000..8e9064e
--- /dev/null
+++ b/test/data/enm/study-XLSX-40d900a9-1e08-4cf9-bc21-19f695cfb19b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-40d900a9-1e08-4cf9-bc21-19f695cfb19b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "098",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "098",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1253.555
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1781.31
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 21.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-40fba3c0-4cba-47d5-a250-c23a2297fa4c.json b/test/data/enm/study-XLSX-40fba3c0-4cba-47d5-a250-c23a2297fa4c.json
new file mode 100644
index 0000000..94e35ea
--- /dev/null
+++ b/test/data/enm/study-XLSX-40fba3c0-4cba-47d5-a250-c23a2297fa4c.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-40fba3c0-4cba-47d5-a250-c23a2297fa4c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-64e97bde-be4b-34fb-b216-85724e66b02a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "153",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "153",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Cup Horn"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17.3
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 24.2
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 2767
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-41595fe0-3c7b-4725-b209-f0267aa83da7.json b/test/data/enm/study-XLSX-41595fe0-3c7b-4725-b209-f0267aa83da7.json
new file mode 100644
index 0000000..c6e9e78
--- /dev/null
+++ b/test/data/enm/study-XLSX-41595fe0-3c7b-4725-b209-f0267aa83da7.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-41595fe0-3c7b-4725-b209-f0267aa83da7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "015",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "015",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5.764
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 113.051
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.291
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-41d9609b-1d68-442f-9896-03cc648e1240.json b/test/data/enm/study-XLSX-41d9609b-1d68-442f-9896-03cc648e1240.json
new file mode 100644
index 0000000..79fb7a2
--- /dev/null
+++ b/test/data/enm/study-XLSX-41d9609b-1d68-442f-9896-03cc648e1240.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-41d9609b-1d68-442f-9896-03cc648e1240",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "022",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "022",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-422fff63-c923-410d-86d1-0a21e060ba0b.json b/test/data/enm/study-XLSX-422fff63-c923-410d-86d1-0a21e060ba0b.json
new file mode 100644
index 0000000..6757584
--- /dev/null
+++ b/test/data/enm/study-XLSX-422fff63-c923-410d-86d1-0a21e060ba0b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-422fff63-c923-410d-86d1-0a21e060ba0b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-945d75a3-50b7-3655-8979-376d39096378"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "031",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "031",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "(m2/g)",
+        "loValue": 254
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-446676a2-9dc2-47f8-b1a6-f71f18e62e73.json b/test/data/enm/study-XLSX-446676a2-9dc2-47f8-b1a6-f71f18e62e73.json
new file mode 100644
index 0000000..fb98c70
--- /dev/null
+++ b/test/data/enm/study-XLSX-446676a2-9dc2-47f8-b1a6-f71f18e62e73.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-446676a2-9dc2-47f8-b1a6-f71f18e62e73",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "156",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "156",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 84
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4585d2c4-35ba-46e6-8923-87b8e0701cb3.json b/test/data/enm/study-XLSX-4585d2c4-35ba-46e6-8923-87b8e0701cb3.json
new file mode 100644
index 0000000..3310d09
--- /dev/null
+++ b/test/data/enm/study-XLSX-4585d2c4-35ba-46e6-8923-87b8e0701cb3.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-4585d2c4-35ba-46e6-8923-87b8e0701cb3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-251091e3-55d1-36b3-854c-d1933ec46461"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "027",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "027",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-45aeb6a7-b132-404a-8702-f5988da7f94a.json b/test/data/enm/study-XLSX-45aeb6a7-b132-404a-8702-f5988da7f94a.json
new file mode 100644
index 0000000..50bb303
--- /dev/null
+++ b/test/data/enm/study-XLSX-45aeb6a7-b132-404a-8702-f5988da7f94a.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-45aeb6a7-b132-404a-8702-f5988da7f94a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7d5a7a1b-5069-3256-b796-2361afcf3bfe"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "032",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "032",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Irregular entangled kinked and mostly bent "
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 79
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-45bd15a8-3413-4050-ae56-b76fd52cd676.json b/test/data/enm/study-XLSX-45bd15a8-3413-4050-ae56-b76fd52cd676.json
new file mode 100644
index 0000000..d840a61
--- /dev/null
+++ b/test/data/enm/study-XLSX-45bd15a8-3413-4050-ae56-b76fd52cd676.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-45bd15a8-3413-4050-ae56-b76fd52cd676",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "022",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "022",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 7.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-47c449e6-57f0-416d-8b3b-bdf758f07c90.json b/test/data/enm/study-XLSX-47c449e6-57f0-416d-8b3b-bdf758f07c90.json
new file mode 100644
index 0000000..9252a40
--- /dev/null
+++ b/test/data/enm/study-XLSX-47c449e6-57f0-416d-8b3b-bdf758f07c90.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-47c449e6-57f0-416d-8b3b-bdf758f07c90",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "118",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "118",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 97.777
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 120.819
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.922
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4983675e-d2fd-4212-bc78-f424507604c4.json b/test/data/enm/study-XLSX-4983675e-d2fd-4212-bc78-f424507604c4.json
new file mode 100644
index 0000000..c850523
--- /dev/null
+++ b/test/data/enm/study-XLSX-4983675e-d2fd-4212-bc78-f424507604c4.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-4983675e-d2fd-4212-bc78-f424507604c4",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2aef353b-440f-32a7-8447-1974997a69a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "190",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "190",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loQualifier": ">=",
+        "loValue": 26.3,
+        "upQualifier": "<=",
+        "upValue": 28.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4a8aca48-c975-468b-9be8-03c6e735baa7.json b/test/data/enm/study-XLSX-4a8aca48-c975-468b-9be8-03c6e735baa7.json
new file mode 100644
index 0000000..b8692b4
--- /dev/null
+++ b/test/data/enm/study-XLSX-4a8aca48-c975-468b-9be8-03c6e735baa7.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-4a8aca48-c975-468b-9be8-03c6e735baa7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d7807f7-a13b-392f-88af-fe7885a67502"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "170",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "170",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 178
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 160
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4b3b96a6-c670-4ed6-90b8-2afe609f597f.json b/test/data/enm/study-XLSX-4b3b96a6-c670-4ed6-90b8-2afe609f597f.json
new file mode 100644
index 0000000..25712f6
--- /dev/null
+++ b/test/data/enm/study-XLSX-4b3b96a6-c670-4ed6-90b8-2afe609f597f.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-4b3b96a6-c670-4ed6-90b8-2afe609f597f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "008",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "008",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18.8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18.8
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4b73086a-515b-40b6-8e23-358337ba64f2.json b/test/data/enm/study-XLSX-4b73086a-515b-40b6-8e23-358337ba64f2.json
new file mode 100644
index 0000000..f971bef
--- /dev/null
+++ b/test/data/enm/study-XLSX-4b73086a-515b-40b6-8e23-358337ba64f2.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-4b73086a-515b-40b6-8e23-358337ba64f2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "138",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "138",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 27626.677
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 155892.087
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5130.616
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4be76f8a-a3f8-4a4e-99f1-6b0cb81cd1e5.json b/test/data/enm/study-XLSX-4be76f8a-a3f8-4a4e-99f1-6b0cb81cd1e5.json
new file mode 100644
index 0000000..57feef5
--- /dev/null
+++ b/test/data/enm/study-XLSX-4be76f8a-a3f8-4a4e-99f1-6b0cb81cd1e5.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-4be76f8a-a3f8-4a4e-99f1-6b0cb81cd1e5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5e44448d-216f-3b91-891a-a7e1de030a13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "186",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "186",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -43.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4ce6ad29-3317-407c-8c7b-62a0701762c2.json b/test/data/enm/study-XLSX-4ce6ad29-3317-407c-8c7b-62a0701762c2.json
new file mode 100644
index 0000000..cc75144
--- /dev/null
+++ b/test/data/enm/study-XLSX-4ce6ad29-3317-407c-8c7b-62a0701762c2.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-4ce6ad29-3317-407c-8c7b-62a0701762c2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "123",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "123",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Stirring"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 17
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4cead62b-dda7-4f5f-945f-ceb75c9a2eda.json b/test/data/enm/study-XLSX-4cead62b-dda7-4f5f-945f-ceb75c9a2eda.json
new file mode 100644
index 0000000..37c9d2c
--- /dev/null
+++ b/test/data/enm/study-XLSX-4cead62b-dda7-4f5f-945f-ceb75c9a2eda.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-4cead62b-dda7-4f5f-945f-ceb75c9a2eda",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "028",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "028",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4dd12e6c-c554-44e6-8428-732407473c6b.json b/test/data/enm/study-XLSX-4dd12e6c-c554-44e6-8428-732407473c6b.json
new file mode 100644
index 0000000..55a52a2
--- /dev/null
+++ b/test/data/enm/study-XLSX-4dd12e6c-c554-44e6-8428-732407473c6b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-4dd12e6c-c554-44e6-8428-732407473c6b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "083",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "083",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -30
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4de28065-48d6-4388-82dd-ea35142f27f2.json b/test/data/enm/study-XLSX-4de28065-48d6-4388-82dd-ea35142f27f2.json
new file mode 100644
index 0000000..d25d64f
--- /dev/null
+++ b/test/data/enm/study-XLSX-4de28065-48d6-4388-82dd-ea35142f27f2.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-4de28065-48d6-4388-82dd-ea35142f27f2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "192",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "192",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "polyhedral with irregular morphology"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4e10f71e-e821-4cb6-9cb1-ffa7d05a9294.json b/test/data/enm/study-XLSX-4e10f71e-e821-4cb6-9cb1-ffa7d05a9294.json
new file mode 100644
index 0000000..7e840dd
--- /dev/null
+++ b/test/data/enm/study-XLSX-4e10f71e-e821-4cb6-9cb1-ffa7d05a9294.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-4e10f71e-e821-4cb6-9cb1-ffa7d05a9294",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "122",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "122",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.983
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.998
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.361
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4fad36a5-e05a-4e18-9e4d-9dd542742970.json b/test/data/enm/study-XLSX-4fad36a5-e05a-4e18-9e4d-9dd542742970.json
new file mode 100644
index 0000000..a9baf58
--- /dev/null
+++ b/test/data/enm/study-XLSX-4fad36a5-e05a-4e18-9e4d-9dd542742970.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-4fad36a5-e05a-4e18-9e4d-9dd542742970",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "074",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "074",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 90.3
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 295.564
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.211
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-fa48e134-54cf-3417-a63a-6f744191cec2.json b/test/data/enm/study-XLSX-502d510d-75f3-4178-ad7b-66d35eca34fc.json
index 0943a29..0943a29 100644
--- a/test/data/enm/study-XLSX-fa48e134-54cf-3417-a63a-6f744191cec2.json
+++ b/test/data/enm/study-XLSX-502d510d-75f3-4178-ad7b-66d35eca34fc.json
diff --git a/test/data/enm/study-XLSX-503e5833-d2b4-49c6-9f7e-beb12dffa851.json b/test/data/enm/study-XLSX-503e5833-d2b4-49c6-9f7e-beb12dffa851.json
new file mode 100644
index 0000000..f01ab55
--- /dev/null
+++ b/test/data/enm/study-XLSX-503e5833-d2b4-49c6-9f7e-beb12dffa851.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-503e5833-d2b4-49c6-9f7e-beb12dffa851",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "065",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "065",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 1,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 48.037
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 145.919
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.915
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-505f7983-f6cc-4965-b267-6bf2ebf5d4ac.json b/test/data/enm/study-XLSX-505f7983-f6cc-4965-b267-6bf2ebf5d4ac.json
new file mode 100644
index 0000000..996f80f
--- /dev/null
+++ b/test/data/enm/study-XLSX-505f7983-f6cc-4965-b267-6bf2ebf5d4ac.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-505f7983-f6cc-4965-b267-6bf2ebf5d4ac",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "181",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "181",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.755
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.497
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.23
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-52342ee4-a212-41f4-919b-4b2657948373.json b/test/data/enm/study-XLSX-52342ee4-a212-41f4-919b-4b2657948373.json
new file mode 100644
index 0000000..37b93ad
--- /dev/null
+++ b/test/data/enm/study-XLSX-52342ee4-a212-41f4-919b-4b2657948373.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-52342ee4-a212-41f4-919b-4b2657948373",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "057",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "057",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 72,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.761
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 10.851
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.244
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-53055f0e-f399-401f-8e00-752d041dc2ad.json b/test/data/enm/study-XLSX-53055f0e-f399-401f-8e00-752d041dc2ad.json
new file mode 100644
index 0000000..076c98e
--- /dev/null
+++ b/test/data/enm/study-XLSX-53055f0e-f399-401f-8e00-752d041dc2ad.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-53055f0e-f399-401f-8e00-752d041dc2ad",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "127",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "127",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Stirring"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 124
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-53347e92-6eda-4e2b-be15-4210fb3bec01.json b/test/data/enm/study-XLSX-53347e92-6eda-4e2b-be15-4210fb3bec01.json
new file mode 100644
index 0000000..f5f0cf3
--- /dev/null
+++ b/test/data/enm/study-XLSX-53347e92-6eda-4e2b-be15-4210fb3bec01.json
@@ -0,0 +1,696 @@
+{
+  "uuid": "XLSX-53347e92-6eda-4e2b-be15-4210fb3bec01",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7011cea0-1011-3f8b-9e8a-b3289fed836a"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0002993_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0002993",
+      "title": "BAO_0002993 Cytotoxicity Assay"
+    },
+    "endpoint": "",
+    "guideline": [
+      "ELISA / TNF-α release in culture medium"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "Y",
+    "CLO_0000031": "HMDM (primary cells)",
+    "CLO_0000031 EFO_0004443": "ATCC",
+    "Cell culture conditions - Serum": "FBS (Gibco/413105K) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": 0.1,
+    "Cell line/Type - Full name": "human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "N",
+    "NPO_1961": "N",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, RNBB2729 "
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.893
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 19.698
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 18.521
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 18.028
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 18.415
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 19.297
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 20.887
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 22.696
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": -0.343
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 5.989
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 5.77
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 5.301
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 5.16
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 5.229
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 6.156
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 7.281
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.189
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.474
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 2.002
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.786
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.57
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.735
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.29
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 1.206
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.502
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 8.808
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 8.957
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 8.306
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 8.244
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 9.507
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 14.416
+      }
+    },
+    {
+      "endpoint": "TNF-α (ng/ml)",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 4",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "ng/ml",
+        "loValue": 15.438
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-53a8f685-15f3-401d-bfd8-04ba11b01caf.json b/test/data/enm/study-XLSX-53a8f685-15f3-401d-bfd8-04ba11b01caf.json
new file mode 100644
index 0000000..eef99af
--- /dev/null
+++ b/test/data/enm/study-XLSX-53a8f685-15f3-401d-bfd8-04ba11b01caf.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-53a8f685-15f3-401d-bfd8-04ba11b01caf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "163",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "163",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23.412
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 25.849
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.097
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-54374c80-9b0b-422b-b7d6-1b88ff2559d7.json b/test/data/enm/study-XLSX-54374c80-9b0b-422b-b7d6-1b88ff2559d7.json
new file mode 100644
index 0000000..657cf6f
--- /dev/null
+++ b/test/data/enm/study-XLSX-54374c80-9b0b-422b-b7d6-1b88ff2559d7.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-54374c80-9b0b-422b-b7d6-1b88ff2559d7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "004",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "004",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 6.4
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 6.4
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-565b07e5-e902-4963-874c-29d6481bc951.json b/test/data/enm/study-XLSX-565b07e5-e902-4963-874c-29d6481bc951.json
new file mode 100644
index 0000000..78b1386
--- /dev/null
+++ b/test/data/enm/study-XLSX-565b07e5-e902-4963-874c-29d6481bc951.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-565b07e5-e902-4963-874c-29d6481bc951",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-75ca4d9f-546f-3d7d-a24e-d0d54809cbb3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "039",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "039",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 225
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5660a7b2-635d-448e-9ed0-9a27c74b8a35.json b/test/data/enm/study-XLSX-5660a7b2-635d-448e-9ed0-9a27c74b8a35.json
new file mode 100644
index 0000000..255f24a
--- /dev/null
+++ b/test/data/enm/study-XLSX-5660a7b2-635d-448e-9ed0-9a27c74b8a35.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-5660a7b2-635d-448e-9ed0-9a27c74b8a35",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "026",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "026",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1499.586
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1890.503
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.637
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-57070dcb-b8f4-417c-bd32-821515cb654b.json b/test/data/enm/study-XLSX-57070dcb-b8f4-417c-bd32-821515cb654b.json
new file mode 100644
index 0000000..dd328c1
--- /dev/null
+++ b/test/data/enm/study-XLSX-57070dcb-b8f4-417c-bd32-821515cb654b.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-57070dcb-b8f4-417c-bd32-821515cb654b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "167",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "167",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 178
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 313
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5735a27c-52fb-4fca-bd17-13780345dcf5.json b/test/data/enm/study-XLSX-5735a27c-52fb-4fca-bd17-13780345dcf5.json
new file mode 100644
index 0000000..3ca5ee3
--- /dev/null
+++ b/test/data/enm/study-XLSX-5735a27c-52fb-4fca-bd17-13780345dcf5.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-5735a27c-52fb-4fca-bd17-13780345dcf5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "166",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "166",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53.json b/test/data/enm/study-XLSX-5897d5fa-1a6b-4b73-9c96-702bcfce3fb5.json
index aa52ed8..aa52ed8 100644
--- a/test/data/enm/study-XLSX-bbff7bfc-273b-3dfb-be71-5afb33113e53.json
+++ b/test/data/enm/study-XLSX-5897d5fa-1a6b-4b73-9c96-702bcfce3fb5.json
diff --git a/test/data/enm/study-XLSX-59f17980-2a41-4525-a518-68576d2ebba8.json b/test/data/enm/study-XLSX-59f17980-2a41-4525-a518-68576d2ebba8.json
new file mode 100644
index 0000000..483c8bd
--- /dev/null
+++ b/test/data/enm/study-XLSX-59f17980-2a41-4525-a518-68576d2ebba8.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-59f17980-2a41-4525-a518-68576d2ebba8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-12620892-23e5-37f4-9644-a82c4240d695"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "150",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "150",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-93b2da85-fc0c-315f-8d3b-77f1a7776fb4.json b/test/data/enm/study-XLSX-5ce7f13f-0535-4b46-bf94-28c7566e42e6.json
index 6917546..6917546 100644
--- a/test/data/enm/study-XLSX-93b2da85-fc0c-315f-8d3b-77f1a7776fb4.json
+++ b/test/data/enm/study-XLSX-5ce7f13f-0535-4b46-bf94-28c7566e42e6.json
diff --git a/test/data/enm/study-XLSX-5e5f1183-8673-45fc-b1f8-b3eef5c3ae41.json b/test/data/enm/study-XLSX-5e5f1183-8673-45fc-b1f8-b3eef5c3ae41.json
new file mode 100644
index 0000000..f48cd96
--- /dev/null
+++ b/test/data/enm/study-XLSX-5e5f1183-8673-45fc-b1f8-b3eef5c3ae41.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-5e5f1183-8673-45fc-b1f8-b3eef5c3ae41",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "109",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "109",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1131.253
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1500.58
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.773
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5efbcc9b-2430-4305-8a3f-22c756586239.json b/test/data/enm/study-XLSX-5efbcc9b-2430-4305-8a3f-22c756586239.json
new file mode 100644
index 0000000..461fbc1
--- /dev/null
+++ b/test/data/enm/study-XLSX-5efbcc9b-2430-4305-8a3f-22c756586239.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-5efbcc9b-2430-4305-8a3f-22c756586239",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "140",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "140",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 159.876
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 198.592
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.549
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5f34f263-01ba-4dbe-b0bf-356befcf741b.json b/test/data/enm/study-XLSX-5f34f263-01ba-4dbe-b0bf-356befcf741b.json
new file mode 100644
index 0000000..dd91dbb
--- /dev/null
+++ b/test/data/enm/study-XLSX-5f34f263-01ba-4dbe-b0bf-356befcf741b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-5f34f263-01ba-4dbe-b0bf-356befcf741b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "160",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "160",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "espherical"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-60feab4f-a313-40a1-b8a5-12f369010954.json b/test/data/enm/study-XLSX-60feab4f-a313-40a1-b8a5-12f369010954.json
new file mode 100644
index 0000000..59f5539
--- /dev/null
+++ b/test/data/enm/study-XLSX-60feab4f-a313-40a1-b8a5-12f369010954.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-60feab4f-a313-40a1-b8a5-12f369010954",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "191",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "191",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1149.611
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 35572.569
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1376.918
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6132171d-adcc-40b1-b878-f7348210ef70.json b/test/data/enm/study-XLSX-6132171d-adcc-40b1-b878-f7348210ef70.json
new file mode 100644
index 0000000..0d2461e
--- /dev/null
+++ b/test/data/enm/study-XLSX-6132171d-adcc-40b1-b878-f7348210ef70.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-6132171d-adcc-40b1-b878-f7348210ef70",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "123",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "123",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -28.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-616c0fe1-a78c-4bfe-b7ef-ddd944bcade6.json b/test/data/enm/study-XLSX-616c0fe1-a78c-4bfe-b7ef-ddd944bcade6.json
new file mode 100644
index 0000000..e0913c9
--- /dev/null
+++ b/test/data/enm/study-XLSX-616c0fe1-a78c-4bfe-b7ef-ddd944bcade6.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-616c0fe1-a78c-4bfe-b7ef-ddd944bcade6",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "162",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "162",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 25.938
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 41.782
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.634
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-62124f01-b636-4790-9fdf-2853ee2d0994.json b/test/data/enm/study-XLSX-62124f01-b636-4790-9fdf-2853ee2d0994.json
new file mode 100644
index 0000000..3bcc805
--- /dev/null
+++ b/test/data/enm/study-XLSX-62124f01-b636-4790-9fdf-2853ee2d0994.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-62124f01-b636-4790-9fdf-2853ee2d0994",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "058",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "058",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": "0,5",
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 12.671
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 42.703
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.201
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-643341e8-2f22-493d-9800-e380396d8836.json b/test/data/enm/study-XLSX-643341e8-2f22-493d-9800-e380396d8836.json
new file mode 100644
index 0000000..546774d
--- /dev/null
+++ b/test/data/enm/study-XLSX-643341e8-2f22-493d-9800-e380396d8836.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-643341e8-2f22-493d-9800-e380396d8836",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "028",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "028",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.037
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 201.875
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.473
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6510c098-2038-48d8-8484-9594fb095335.json b/test/data/enm/study-XLSX-6510c098-2038-48d8-8484-9594fb095335.json
new file mode 100644
index 0000000..bdc1cbf
--- /dev/null
+++ b/test/data/enm/study-XLSX-6510c098-2038-48d8-8484-9594fb095335.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-6510c098-2038-48d8-8484-9594fb095335",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "156",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "156",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-658edc2a-ded0-4b88-b80f-638b0d726812.json b/test/data/enm/study-XLSX-658edc2a-ded0-4b88-b80f-638b0d726812.json
new file mode 100644
index 0000000..5e7c3cd
--- /dev/null
+++ b/test/data/enm/study-XLSX-658edc2a-ded0-4b88-b80f-638b0d726812.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-658edc2a-ded0-4b88-b80f-638b0d726812",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "176",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "176",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loQualifier": ">=",
+        "loValue": 14.5,
+        "upQualifier": "<=",
+        "upValue": 15.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-668c62b3-24b5-4da1-a9dd-cf30be74ebcd.json b/test/data/enm/study-XLSX-668c62b3-24b5-4da1-a9dd-cf30be74ebcd.json
new file mode 100644
index 0000000..ed15e42
--- /dev/null
+++ b/test/data/enm/study-XLSX-668c62b3-24b5-4da1-a9dd-cf30be74ebcd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-668c62b3-24b5-4da1-a9dd-cf30be74ebcd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "149",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "149",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 56.261
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-674ea779-2d07-44be-b7ba-0f9c39560ceb.json b/test/data/enm/study-XLSX-674ea779-2d07-44be-b7ba-0f9c39560ceb.json
new file mode 100644
index 0000000..1536f7d
--- /dev/null
+++ b/test/data/enm/study-XLSX-674ea779-2d07-44be-b7ba-0f9c39560ceb.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-674ea779-2d07-44be-b7ba-0f9c39560ceb",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "149",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "149",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "elongated and rounded"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-677e4c55-92dd-4f7f-a8fe-230680fed7a3.json b/test/data/enm/study-XLSX-677e4c55-92dd-4f7f-a8fe-230680fed7a3.json
new file mode 100644
index 0000000..0aa841b
--- /dev/null
+++ b/test/data/enm/study-XLSX-677e4c55-92dd-4f7f-a8fe-230680fed7a3.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-677e4c55-92dd-4f7f-a8fe-230680fed7a3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "066",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "066",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 2,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 52.673
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 157.987
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.213
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-679926f6-20b1-4c5c-a3d7-3479daaa05e3.json b/test/data/enm/study-XLSX-679926f6-20b1-4c5c-a3d7-3479daaa05e3.json
new file mode 100644
index 0000000..e441a86
--- /dev/null
+++ b/test/data/enm/study-XLSX-679926f6-20b1-4c5c-a3d7-3479daaa05e3.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-679926f6-20b1-4c5c-a3d7-3479daaa05e3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "119",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "119",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "angular"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-68740430-324b-43d5-a2ee-75c5cd8bc5d9.json b/test/data/enm/study-XLSX-68740430-324b-43d5-a2ee-75c5cd8bc5d9.json
new file mode 100644
index 0000000..3ae75f5
--- /dev/null
+++ b/test/data/enm/study-XLSX-68740430-324b-43d5-a2ee-75c5cd8bc5d9.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-68740430-324b-43d5-a2ee-75c5cd8bc5d9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "062",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "062",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.761
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.33
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.423
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6984e52f-8789-4364-b88f-77ad879365cc.json b/test/data/enm/study-XLSX-6984e52f-8789-4364-b88f-77ad879365cc.json
new file mode 100644
index 0000000..4a1801c
--- /dev/null
+++ b/test/data/enm/study-XLSX-6984e52f-8789-4364-b88f-77ad879365cc.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-6984e52f-8789-4364-b88f-77ad879365cc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "155",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "155",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 35
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-69b01885-593c-44d8-8ca1-9ca34d9429df.json b/test/data/enm/study-XLSX-69b01885-593c-44d8-8ca1-9ca34d9429df.json
new file mode 100644
index 0000000..47e83a9
--- /dev/null
+++ b/test/data/enm/study-XLSX-69b01885-593c-44d8-8ca1-9ca34d9429df.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-69b01885-593c-44d8-8ca1-9ca34d9429df",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "131",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "131",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Stirring"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 60
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 60
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 68.8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-69dde5ab-16e5-40e1-81ed-b0ddbff8984d.json b/test/data/enm/study-XLSX-69dde5ab-16e5-40e1-81ed-b0ddbff8984d.json
new file mode 100644
index 0000000..bfa56af
--- /dev/null
+++ b/test/data/enm/study-XLSX-69dde5ab-16e5-40e1-81ed-b0ddbff8984d.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-69dde5ab-16e5-40e1-81ed-b0ddbff8984d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "179",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "179",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 170
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 180
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6a0eafba-58d6-4e8f-818e-dcb7924441b8.json b/test/data/enm/study-XLSX-6a0eafba-58d6-4e8f-818e-dcb7924441b8.json
new file mode 100644
index 0000000..2ab19b8
--- /dev/null
+++ b/test/data/enm/study-XLSX-6a0eafba-58d6-4e8f-818e-dcb7924441b8.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-6a0eafba-58d6-4e8f-818e-dcb7924441b8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "064",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "064",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": "0,5",
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 30.547
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 95.681
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.605
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6a7bfd1c-0eb9-4164-b3fd-a0d14afb7030.json b/test/data/enm/study-XLSX-6a7bfd1c-0eb9-4164-b3fd-a0d14afb7030.json
new file mode 100644
index 0000000..30db8b1
--- /dev/null
+++ b/test/data/enm/study-XLSX-6a7bfd1c-0eb9-4164-b3fd-a0d14afb7030.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-6a7bfd1c-0eb9-4164-b3fd-a0d14afb7030",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "068",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "068",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 68.308
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 232.231
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 6.557
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6aa092f0-7bd2-451f-9519-76783e191a44.json b/test/data/enm/study-XLSX-6aa092f0-7bd2-451f-9519-76783e191a44.json
new file mode 100644
index 0000000..7dc2faf
--- /dev/null
+++ b/test/data/enm/study-XLSX-6aa092f0-7bd2-451f-9519-76783e191a44.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-6aa092f0-7bd2-451f-9519-76783e191a44",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-c42f434e-6295-3715-8a23-ce26f87642a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "188",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "188",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "near spherical rather than polyhedral with regular morphology"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6b80cb8a-3c4e-47fc-9576-80bea2692acf.json b/test/data/enm/study-XLSX-6b80cb8a-3c4e-47fc-9576-80bea2692acf.json
new file mode 100644
index 0000000..e7908d4
--- /dev/null
+++ b/test/data/enm/study-XLSX-6b80cb8a-3c4e-47fc-9576-80bea2692acf.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-6b80cb8a-3c4e-47fc-9576-80bea2692acf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "107",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "107",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "round/oblong"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6bd1e6fa-d769-4f6e-9ce5-56449b76b157.json b/test/data/enm/study-XLSX-6bd1e6fa-d769-4f6e-9ce5-56449b76b157.json
new file mode 100644
index 0000000..d7b783a
--- /dev/null
+++ b/test/data/enm/study-XLSX-6bd1e6fa-d769-4f6e-9ce5-56449b76b157.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-6bd1e6fa-d769-4f6e-9ce5-56449b76b157",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2aef353b-440f-32a7-8447-1974997a69a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "189",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "189",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 76.65
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 19961.993
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 795.414
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-6beceb2a-be58-434a-b0d8-486c7e52097d.json b/test/data/enm/study-XLSX-6beceb2a-be58-434a-b0d8-486c7e52097d.json
new file mode 100644
index 0000000..82f64b9
--- /dev/null
+++ b/test/data/enm/study-XLSX-6beceb2a-be58-434a-b0d8-486c7e52097d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-6beceb2a-be58-434a-b0d8-486c7e52097d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "100",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "100",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 66.831
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 93.873
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.082
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7003b00b-fc9c-4b77-84fa-3575208046b5.json b/test/data/enm/study-XLSX-7003b00b-fc9c-4b77-84fa-3575208046b5.json
new file mode 100644
index 0000000..df817b1
--- /dev/null
+++ b/test/data/enm/study-XLSX-7003b00b-fc9c-4b77-84fa-3575208046b5.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-7003b00b-fc9c-4b77-84fa-3575208046b5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "113",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "113",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 160.324
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 618.789
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.339
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-70cad8bd-b879-4f35-87c8-368efdc5d417.json b/test/data/enm/study-XLSX-70cad8bd-b879-4f35-87c8-368efdc5d417.json
new file mode 100644
index 0000000..7b4ece9
--- /dev/null
+++ b/test/data/enm/study-XLSX-70cad8bd-b879-4f35-87c8-368efdc5d417.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-70cad8bd-b879-4f35-87c8-368efdc5d417",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "192",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "192",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 503.935
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1665.946
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 46.48
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-71afa2e5-14de-4df7-9c4e-21cae4d1cee2.json b/test/data/enm/study-XLSX-71afa2e5-14de-4df7-9c4e-21cae4d1cee2.json
new file mode 100644
index 0000000..fd7946b
--- /dev/null
+++ b/test/data/enm/study-XLSX-71afa2e5-14de-4df7-9c4e-21cae4d1cee2.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-71afa2e5-14de-4df7-9c4e-21cae4d1cee2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-12620892-23e5-37f4-9644-a82c4240d695"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "150",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "150",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-74ccfe84-b7af-4a86-bc71-95bf65506336.json b/test/data/enm/study-XLSX-74ccfe84-b7af-4a86-bc71-95bf65506336.json
new file mode 100644
index 0000000..0f20dc3
--- /dev/null
+++ b/test/data/enm/study-XLSX-74ccfe84-b7af-4a86-bc71-95bf65506336.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-74ccfe84-b7af-4a86-bc71-95bf65506336",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "137",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "137",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 674.028
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2905.409
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 89.255
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-75963ed6-0523-4a45-a317-b6269a0d2cfe.json b/test/data/enm/study-XLSX-75963ed6-0523-4a45-a317-b6269a0d2cfe.json
new file mode 100644
index 0000000..92111f1
--- /dev/null
+++ b/test/data/enm/study-XLSX-75963ed6-0523-4a45-a317-b6269a0d2cfe.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-75963ed6-0523-4a45-a317-b6269a0d2cfe",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "166",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "166",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 178
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 482
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-75b996a0-f468-4f65-999e-59061f3ab8f1.json b/test/data/enm/study-XLSX-75b996a0-f468-4f65-999e-59061f3ab8f1.json
new file mode 100644
index 0000000..4690293
--- /dev/null
+++ b/test/data/enm/study-XLSX-75b996a0-f468-4f65-999e-59061f3ab8f1.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-75b996a0-f468-4f65-999e-59061f3ab8f1",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d7807f7-a13b-392f-88af-fe7885a67502"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "169",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "169",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NIH/3T3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 144,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.117
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.672
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.022
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-76487895-631e-40f3-88a3-b2741de4d910.json b/test/data/enm/study-XLSX-76487895-631e-40f3-88a3-b2741de4d910.json
new file mode 100644
index 0000000..ebdec4c
--- /dev/null
+++ b/test/data/enm/study-XLSX-76487895-631e-40f3-88a3-b2741de4d910.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-76487895-631e-40f3-88a3-b2741de4d910",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "035",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "035",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 67
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 4048
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 798
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7677b950-92fc-4190-b1da-9830605be921.json b/test/data/enm/study-XLSX-7677b950-92fc-4190-b1da-9830605be921.json
new file mode 100644
index 0000000..3f917ad
--- /dev/null
+++ b/test/data/enm/study-XLSX-7677b950-92fc-4190-b1da-9830605be921.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7677b950-92fc-4190-b1da-9830605be921",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "119",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "119",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -46.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-12620892-23e5-37f4-9644-a82c4240d695.json b/test/data/enm/study-XLSX-7801fc1f-f78e-439b-86d8-605aac5829f9.json
index a1d3fb5..a1d3fb5 100644
--- a/test/data/enm/study-XLSX-12620892-23e5-37f4-9644-a82c4240d695.json
+++ b/test/data/enm/study-XLSX-7801fc1f-f78e-439b-86d8-605aac5829f9.json
diff --git a/test/data/enm/study-XLSX-782237c1-fdd9-4a31-98f2-9cac8437cafa.json b/test/data/enm/study-XLSX-782237c1-fdd9-4a31-98f2-9cac8437cafa.json
new file mode 100644
index 0000000..3a0f5d8
--- /dev/null
+++ b/test/data/enm/study-XLSX-782237c1-fdd9-4a31-98f2-9cac8437cafa.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-782237c1-fdd9-4a31-98f2-9cac8437cafa",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d7807f7-a13b-392f-88af-fe7885a67502"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "170",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "170",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio of 1 (20–250 nm and 400 nm) and 2:7,5 (50-350 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-78a5f27b-1b7b-4416-8ff7-b981d833eac7.json b/test/data/enm/study-XLSX-78a5f27b-1b7b-4416-8ff7-b981d833eac7.json
new file mode 100644
index 0000000..138a032
--- /dev/null
+++ b/test/data/enm/study-XLSX-78a5f27b-1b7b-4416-8ff7-b981d833eac7.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-78a5f27b-1b7b-4416-8ff7-b981d833eac7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "103",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "103",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 30
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7942c6c5-07a2-4d75-8ee1-7994d617ded4.json b/test/data/enm/study-XLSX-7942c6c5-07a2-4d75-8ee1-7994d617ded4.json
new file mode 100644
index 0000000..d88ebee
--- /dev/null
+++ b/test/data/enm/study-XLSX-7942c6c5-07a2-4d75-8ee1-7994d617ded4.json
@@ -0,0 +1,57 @@
+{
+  "uuid": "XLSX-7942c6c5-07a2-4d75-8ee1-7994d617ded4",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "002",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "002",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.0
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-79993424-da62-4832-a593-a3fddf1215dc.json b/test/data/enm/study-XLSX-79993424-da62-4832-a593-a3fddf1215dc.json
new file mode 100644
index 0000000..3719b28
--- /dev/null
+++ b/test/data/enm/study-XLSX-79993424-da62-4832-a593-a3fddf1215dc.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-79993424-da62-4832-a593-a3fddf1215dc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "149",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "149",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7b6bef82-33d5-496b-8a67-98dc25612972.json b/test/data/enm/study-XLSX-7b6bef82-33d5-496b-8a67-98dc25612972.json
new file mode 100644
index 0000000..87ae39b
--- /dev/null
+++ b/test/data/enm/study-XLSX-7b6bef82-33d5-496b-8a67-98dc25612972.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7b6bef82-33d5-496b-8a67-98dc25612972",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "184",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "184",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7b7d74b3-17f0-4d27-b99d-e8f9783c78f9.json b/test/data/enm/study-XLSX-7b7d74b3-17f0-4d27-b99d-e8f9783c78f9.json
new file mode 100644
index 0000000..7cd9f93
--- /dev/null
+++ b/test/data/enm/study-XLSX-7b7d74b3-17f0-4d27-b99d-e8f9783c78f9.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7b7d74b3-17f0-4d27-b99d-e8f9783c78f9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "185",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "185",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 77.992
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7da1da69-ac0c-430b-a5de-f15d0c51d1dd.json b/test/data/enm/study-XLSX-7da1da69-ac0c-430b-a5de-f15d0c51d1dd.json
new file mode 100644
index 0000000..de06eb0
--- /dev/null
+++ b/test/data/enm/study-XLSX-7da1da69-ac0c-430b-a5de-f15d0c51d1dd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7da1da69-ac0c-430b-a5de-f15d0c51d1dd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2aef353b-440f-32a7-8447-1974997a69a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "190",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "190",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "polyhedral with irregular morphology"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7de5aa9c-02e2-410a-a1ac-cc5518f2ddd6.json b/test/data/enm/study-XLSX-7de5aa9c-02e2-410a-a1ac-cc5518f2ddd6.json
new file mode 100644
index 0000000..506d325
--- /dev/null
+++ b/test/data/enm/study-XLSX-7de5aa9c-02e2-410a-a1ac-cc5518f2ddd6.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-7de5aa9c-02e2-410a-a1ac-cc5518f2ddd6",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "070",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "070",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": "0,5",
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 42.557
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 117.994
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.017
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7ee9bf0a-db20-45b9-bb5a-0a162e9fd458.json b/test/data/enm/study-XLSX-7ee9bf0a-db20-45b9-bb5a-0a162e9fd458.json
new file mode 100644
index 0000000..95c3314
--- /dev/null
+++ b/test/data/enm/study-XLSX-7ee9bf0a-db20-45b9-bb5a-0a162e9fd458.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7ee9bf0a-db20-45b9-bb5a-0a162e9fd458",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "166",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "166",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio of 1 (20–250 nm and 400 nm) and 2:7,5 (50-350 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7f7f4d4f-6adf-4505-96b8-2b362a3501a9.json b/test/data/enm/study-XLSX-7f7f4d4f-6adf-4505-96b8-2b362a3501a9.json
new file mode 100644
index 0000000..614b2dd
--- /dev/null
+++ b/test/data/enm/study-XLSX-7f7f4d4f-6adf-4505-96b8-2b362a3501a9.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-7f7f4d4f-6adf-4505-96b8-2b362a3501a9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "020",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "020",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -38.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8159e38e-6cd1-48b1-b257-725437255e1b.json b/test/data/enm/study-XLSX-8159e38e-6cd1-48b1-b257-725437255e1b.json
new file mode 100644
index 0000000..f863fc8
--- /dev/null
+++ b/test/data/enm/study-XLSX-8159e38e-6cd1-48b1-b257-725437255e1b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8159e38e-6cd1-48b1-b257-725437255e1b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "038",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "038",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 27.696
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 915.193
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 35.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-832963bb-ee15-45e0-83de-ed54449e8369.json b/test/data/enm/study-XLSX-832963bb-ee15-45e0-83de-ed54449e8369.json
new file mode 100644
index 0000000..034989b
--- /dev/null
+++ b/test/data/enm/study-XLSX-832963bb-ee15-45e0-83de-ed54449e8369.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-832963bb-ee15-45e0-83de-ed54449e8369",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a0d9ab63-ee03-3224-984a-4bd276e3ea3a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "143",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "143",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.45
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 37.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-83558a80-1c32-49b4-b8e3-2817f2e501bc.json b/test/data/enm/study-XLSX-83558a80-1c32-49b4-b8e3-2817f2e501bc.json
new file mode 100644
index 0000000..b5676ac
--- /dev/null
+++ b/test/data/enm/study-XLSX-83558a80-1c32-49b4-b8e3-2817f2e501bc.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-83558a80-1c32-49b4-b8e3-2817f2e501bc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "081",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "081",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 12.643
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.061
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.097
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-83c9e6b3-d952-47e2-8d20-9825a47cca5b.json b/test/data/enm/study-XLSX-83c9e6b3-d952-47e2-8d20-9825a47cca5b.json
new file mode 100644
index 0000000..ae4f162
--- /dev/null
+++ b/test/data/enm/study-XLSX-83c9e6b3-d952-47e2-8d20-9825a47cca5b.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-83c9e6b3-d952-47e2-8d20-9825a47cca5b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5e44448d-216f-3b91-891a-a7e1de030a13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "186",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "186",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "(m2/g)",
+        "loValue": 204.11
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-83cde563-ab1f-4f19-a4e7-b197d4f81d60.json b/test/data/enm/study-XLSX-83cde563-ab1f-4f19-a4e7-b197d4f81d60.json
new file mode 100644
index 0000000..7f3672c
--- /dev/null
+++ b/test/data/enm/study-XLSX-83cde563-ab1f-4f19-a4e7-b197d4f81d60.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-83cde563-ab1f-4f19-a4e7-b197d4f81d60",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-64e97bde-be4b-34fb-b216-85724e66b02a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "153",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "153",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 61
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-845fe2c2-13a3-4950-8550-39b4d5311ed8.json b/test/data/enm/study-XLSX-845fe2c2-13a3-4950-8550-39b4d5311ed8.json
new file mode 100644
index 0000000..d6c9f02
--- /dev/null
+++ b/test/data/enm/study-XLSX-845fe2c2-13a3-4950-8550-39b4d5311ed8.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-845fe2c2-13a3-4950-8550-39b4d5311ed8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "056",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "056",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 9.102
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 19.024
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.397
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-854a676a-8f13-442f-9bd6-51e85f791f54.json b/test/data/enm/study-XLSX-854a676a-8f13-442f-9bd6-51e85f791f54.json
new file mode 100644
index 0000000..76f078e
--- /dev/null
+++ b/test/data/enm/study-XLSX-854a676a-8f13-442f-9bd6-51e85f791f54.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-854a676a-8f13-442f-9bd6-51e85f791f54",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "183",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "183",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8602c5bd-83aa-447e-9adb-cd428a1ba379.json b/test/data/enm/study-XLSX-8602c5bd-83aa-447e-9adb-cd428a1ba379.json
new file mode 100644
index 0000000..9fe0008
--- /dev/null
+++ b/test/data/enm/study-XLSX-8602c5bd-83aa-447e-9adb-cd428a1ba379.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8602c5bd-83aa-447e-9adb-cd428a1ba379",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "073",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "073",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 114.194
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 367.101
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 10.116
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-86d86ca0-8bde-47dd-a7cd-9bf67725d4ca.json b/test/data/enm/study-XLSX-86d86ca0-8bde-47dd-a7cd-9bf67725d4ca.json
new file mode 100644
index 0000000..bcedc17
--- /dev/null
+++ b/test/data/enm/study-XLSX-86d86ca0-8bde-47dd-a7cd-9bf67725d4ca.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-86d86ca0-8bde-47dd-a7cd-9bf67725d4ca",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "165",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "165",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 89.631
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 203.615
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.559
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7011cea0-1011-3f8b-9e8a-b3289fed836a.json b/test/data/enm/study-XLSX-8780e971-9a1e-4c96-b7dd-df6906f459c1.json
index aac3386..aac3386 100644
--- a/test/data/enm/study-XLSX-7011cea0-1011-3f8b-9e8a-b3289fed836a.json
+++ b/test/data/enm/study-XLSX-8780e971-9a1e-4c96-b7dd-df6906f459c1.json
diff --git a/test/data/enm/study-XLSX-87c24669-daee-4ac4-965e-a572347ed807.json b/test/data/enm/study-XLSX-87c24669-daee-4ac4-965e-a572347ed807.json
new file mode 100644
index 0000000..7587b92
--- /dev/null
+++ b/test/data/enm/study-XLSX-87c24669-daee-4ac4-965e-a572347ed807.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-87c24669-daee-4ac4-965e-a572347ed807",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "164",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "164",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 17.872
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.111
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.01
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-880c0005-b5fa-4e6d-8f57-46dfbed10eaf.json b/test/data/enm/study-XLSX-880c0005-b5fa-4e6d-8f57-46dfbed10eaf.json
new file mode 100644
index 0000000..270db70
--- /dev/null
+++ b/test/data/enm/study-XLSX-880c0005-b5fa-4e6d-8f57-46dfbed10eaf.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-880c0005-b5fa-4e6d-8f57-46dfbed10eaf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "125",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "125",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "HaCaT",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 772.279
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3005.732
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 89.338
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-880d9d94-b9be-4703-bf64-b4e72f1f0ba8.json b/test/data/enm/study-XLSX-880d9d94-b9be-4703-bf64-b4e72f1f0ba8.json
new file mode 100644
index 0000000..5b89a30
--- /dev/null
+++ b/test/data/enm/study-XLSX-880d9d94-b9be-4703-bf64-b4e72f1f0ba8.json
@@ -0,0 +1,56 @@
+{
+  "uuid": "XLSX-880d9d94-b9be-4703-bf64-b4e72f1f0ba8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-c42f434e-6295-3715-8a23-ce26f87642a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "188",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "188",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loQualifier": ">=",
+        "loValue": 64,
+        "upQualifier": "<=",
+        "upValue": 68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-89e92622-b378-4c27-a247-69e57ddec991.json b/test/data/enm/study-XLSX-89e92622-b378-4c27-a247-69e57ddec991.json
new file mode 100644
index 0000000..6ab81a2
--- /dev/null
+++ b/test/data/enm/study-XLSX-89e92622-b378-4c27-a247-69e57ddec991.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-89e92622-b378-4c27-a247-69e57ddec991",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-58c9f610-0fef-3009-8112-6ea05d863644"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "168",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "168",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 106
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 178
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 160
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8a271daf-f41f-4db8-8e04-e8a5da3184e1.json b/test/data/enm/study-XLSX-8a271daf-f41f-4db8-8e04-e8a5da3184e1.json
new file mode 100644
index 0000000..62fc4c7
--- /dev/null
+++ b/test/data/enm/study-XLSX-8a271daf-f41f-4db8-8e04-e8a5da3184e1.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8a271daf-f41f-4db8-8e04-e8a5da3184e1",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-190fb54d-9b65-3d58-b65e-b3aae9a1f182"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "154",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "154",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 416.937
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 625.221
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.331
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8af9c4ff-0461-4138-b733-8e3b4df15e36.json b/test/data/enm/study-XLSX-8af9c4ff-0461-4138-b733-8e3b4df15e36.json
new file mode 100644
index 0000000..6eda8f5
--- /dev/null
+++ b/test/data/enm/study-XLSX-8af9c4ff-0461-4138-b733-8e3b4df15e36.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8af9c4ff-0461-4138-b733-8e3b4df15e36",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "173",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "173",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 13.3
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 42.119
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.153
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8bfb303d-bf11-40fa-8492-af33b2e6b811.json b/test/data/enm/study-XLSX-8bfb303d-bf11-40fa-8492-af33b2e6b811.json
new file mode 100644
index 0000000..9709d31
--- /dev/null
+++ b/test/data/enm/study-XLSX-8bfb303d-bf11-40fa-8492-af33b2e6b811.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-8bfb303d-bf11-40fa-8492-af33b2e6b811",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "083",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "083",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "oblong"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8c3d195c-d59b-4530-b812-9b3ffcb05fd0.json b/test/data/enm/study-XLSX-8c3d195c-d59b-4530-b812-9b3ffcb05fd0.json
new file mode 100644
index 0000000..d0a282f
--- /dev/null
+++ b/test/data/enm/study-XLSX-8c3d195c-d59b-4530-b812-9b3ffcb05fd0.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-8c3d195c-d59b-4530-b812-9b3ffcb05fd0",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5a273d77-e518-3523-b377-c06f08182be1"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "021",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "021",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -43.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8c62011c-fc3c-4f25-bb5e-80cef1c29bad.json b/test/data/enm/study-XLSX-8c62011c-fc3c-4f25-bb5e-80cef1c29bad.json
new file mode 100644
index 0000000..a9b0edf
--- /dev/null
+++ b/test/data/enm/study-XLSX-8c62011c-fc3c-4f25-bb5e-80cef1c29bad.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-8c62011c-fc3c-4f25-bb5e-80cef1c29bad",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "141",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "141",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8c7190f0-de46-4f3c-a435-b4954125d617.json b/test/data/enm/study-XLSX-8c7190f0-de46-4f3c-a435-b4954125d617.json
new file mode 100644
index 0000000..4bd953f
--- /dev/null
+++ b/test/data/enm/study-XLSX-8c7190f0-de46-4f3c-a435-b4954125d617.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8c7190f0-de46-4f3c-a435-b4954125d617",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "141",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "141",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 537.769
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3361.7
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 112.957
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8eb34c53-1aa0-4242-bb5f-511b38a05fb0.json b/test/data/enm/study-XLSX-8eb34c53-1aa0-4242-bb5f-511b38a05fb0.json
new file mode 100644
index 0000000..fe2e9de
--- /dev/null
+++ b/test/data/enm/study-XLSX-8eb34c53-1aa0-4242-bb5f-511b38a05fb0.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-8eb34c53-1aa0-4242-bb5f-511b38a05fb0",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "035",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "035",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "straight wall"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 66
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8fd63a5b-02cc-48a8-ab8c-c68bdb992645.json b/test/data/enm/study-XLSX-8fd63a5b-02cc-48a8-ab8c-c68bdb992645.json
new file mode 100644
index 0000000..c9f9cd2
--- /dev/null
+++ b/test/data/enm/study-XLSX-8fd63a5b-02cc-48a8-ab8c-c68bdb992645.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-8fd63a5b-02cc-48a8-ab8c-c68bdb992645",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "009",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "009",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 44.545
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 154.891
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.414
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-8fe70465-2da0-47a4-abdd-7aec47df0d4f.json b/test/data/enm/study-XLSX-8fe70465-2da0-47a4-abdd-7aec47df0d4f.json
new file mode 100644
index 0000000..011c22c
--- /dev/null
+++ b/test/data/enm/study-XLSX-8fe70465-2da0-47a4-abdd-7aec47df0d4f.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-8fe70465-2da0-47a4-abdd-7aec47df0d4f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-254d54ae-e3ba-36d9-8dbd-c84d2296bb24"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "142",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "142",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "elongated"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-906e19d9-d772-4d24-877a-4a4f2e537475.json b/test/data/enm/study-XLSX-906e19d9-d772-4d24-877a-4a4f2e537475.json
new file mode 100644
index 0000000..54b092a
--- /dev/null
+++ b/test/data/enm/study-XLSX-906e19d9-d772-4d24-877a-4a4f2e537475.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-906e19d9-d772-4d24-877a-4a4f2e537475",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "180",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "180",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NIH/3T3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 144,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.061
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.415
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-90ab298a-14d6-4c7b-8cef-c00de828e8b6.json b/test/data/enm/study-XLSX-90ab298a-14d6-4c7b-8cef-c00de828e8b6.json
new file mode 100644
index 0000000..b7da74c
--- /dev/null
+++ b/test/data/enm/study-XLSX-90ab298a-14d6-4c7b-8cef-c00de828e8b6.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-90ab298a-14d6-4c7b-8cef-c00de828e8b6",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "020",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "020",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 20
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 105
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-91f6a79a-8a3a-48d0-b151-be60e0b4c28c.json b/test/data/enm/study-XLSX-91f6a79a-8a3a-48d0-b151-be60e0b4c28c.json
new file mode 100644
index 0000000..476b455
--- /dev/null
+++ b/test/data/enm/study-XLSX-91f6a79a-8a3a-48d0-b151-be60e0b4c28c.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-91f6a79a-8a3a-48d0-b151-be60e0b4c28c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5a273d77-e518-3523-b377-c06f08182be1"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "021",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "021",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 39
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 76
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-922a9b98-0660-458b-bc13-99678882fec6.json b/test/data/enm/study-XLSX-922a9b98-0660-458b-bc13-99678882fec6.json
new file mode 100644
index 0000000..49dfc24
--- /dev/null
+++ b/test/data/enm/study-XLSX-922a9b98-0660-458b-bc13-99678882fec6.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-922a9b98-0660-458b-bc13-99678882fec6",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "155",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "155",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 379.713
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 796.265
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.662
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-935b54e7-c32a-43c1-964a-3cfdc3b4cd17.json b/test/data/enm/study-XLSX-935b54e7-c32a-43c1-964a-3cfdc3b4cd17.json
new file mode 100644
index 0000000..176ed91
--- /dev/null
+++ b/test/data/enm/study-XLSX-935b54e7-c32a-43c1-964a-3cfdc3b4cd17.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-935b54e7-c32a-43c1-964a-3cfdc3b4cd17",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "108",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "108",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 140.736
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 184.62
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.755
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-93cd5725-3e3a-48f1-a786-e1db709707c1.json b/test/data/enm/study-XLSX-93cd5725-3e3a-48f1-a786-e1db709707c1.json
new file mode 100644
index 0000000..3149f1b
--- /dev/null
+++ b/test/data/enm/study-XLSX-93cd5725-3e3a-48f1-a786-e1db709707c1.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-93cd5725-3e3a-48f1-a786-e1db709707c1",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "123",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "123",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.931
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.283
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.214
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f.json b/test/data/enm/study-XLSX-93fb9d3f-15ff-4344-858f-802666bf44c2.json
index a646b45..a646b45 100644
--- a/test/data/enm/study-XLSX-00cd0ac9-9adc-38a5-9520-89ddd591f75f.json
+++ b/test/data/enm/study-XLSX-93fb9d3f-15ff-4344-858f-802666bf44c2.json
diff --git a/test/data/enm/study-XLSX-941c33b0-476d-4bbf-9ff2-cd195483746b.json b/test/data/enm/study-XLSX-941c33b0-476d-4bbf-9ff2-cd195483746b.json
new file mode 100644
index 0000000..c95edac
--- /dev/null
+++ b/test/data/enm/study-XLSX-941c33b0-476d-4bbf-9ff2-cd195483746b.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-941c33b0-476d-4bbf-9ff2-cd195483746b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "034",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "034",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 664.216
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4318.666
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 146.178
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-95750335-a736-4142-9e08-b20fd61a57ce.json b/test/data/enm/study-XLSX-95750335-a736-4142-9e08-b20fd61a57ce.json
new file mode 100644
index 0000000..fa3654e
--- /dev/null
+++ b/test/data/enm/study-XLSX-95750335-a736-4142-9e08-b20fd61a57ce.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-95750335-a736-4142-9e08-b20fd61a57ce",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "075",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "075",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": ""
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-95aee53d-3b33-4256-a631-60d4914942ee.json b/test/data/enm/study-XLSX-95aee53d-3b33-4256-a631-60d4914942ee.json
new file mode 100644
index 0000000..8030e93
--- /dev/null
+++ b/test/data/enm/study-XLSX-95aee53d-3b33-4256-a631-60d4914942ee.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-95aee53d-3b33-4256-a631-60d4914942ee",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "131",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "131",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.888
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.856
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.439
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a0d9ab63-ee03-3224-984a-4bd276e3ea3a.json b/test/data/enm/study-XLSX-95ced9d3-da9a-4a70-9023-75dd5ca53e4d.json
index 7ddc8d4..7ddc8d4 100644
--- a/test/data/enm/study-XLSX-a0d9ab63-ee03-3224-984a-4bd276e3ea3a.json
+++ b/test/data/enm/study-XLSX-95ced9d3-da9a-4a70-9023-75dd5ca53e4d.json
diff --git a/test/data/enm/study-XLSX-988b517f-37db-4a85-a9cd-5dd7ca6a7451.json b/test/data/enm/study-XLSX-988b517f-37db-4a85-a9cd-5dd7ca6a7451.json
new file mode 100644
index 0000000..951a8ee
--- /dev/null
+++ b/test/data/enm/study-XLSX-988b517f-37db-4a85-a9cd-5dd7ca6a7451.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-988b517f-37db-4a85-a9cd-5dd7ca6a7451",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "167",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "167",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.051
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.632
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.023
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-99fae757-27bf-4193-9f98-119ee64ce72a.json b/test/data/enm/study-XLSX-99fae757-27bf-4193-9f98-119ee64ce72a.json
new file mode 100644
index 0000000..8765aa4
--- /dev/null
+++ b/test/data/enm/study-XLSX-99fae757-27bf-4193-9f98-119ee64ce72a.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-99fae757-27bf-4193-9f98-119ee64ce72a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "134",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "134",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 25
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 228.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9b36b98c-5251-4eb7-a94d-e133bdfe2037.json b/test/data/enm/study-XLSX-9b36b98c-5251-4eb7-a94d-e133bdfe2037.json
new file mode 100644
index 0000000..d0702e2
--- /dev/null
+++ b/test/data/enm/study-XLSX-9b36b98c-5251-4eb7-a94d-e133bdfe2037.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-9b36b98c-5251-4eb7-a94d-e133bdfe2037",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-64e97bde-be4b-34fb-b216-85724e66b02a"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "153",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "153",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "irregular"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9c8b990c-b31c-493e-8d3e-e1d4fa9ab680.json b/test/data/enm/study-XLSX-9c8b990c-b31c-493e-8d3e-e1d4fa9ab680.json
new file mode 100644
index 0000000..f6c3adc
--- /dev/null
+++ b/test/data/enm/study-XLSX-9c8b990c-b31c-493e-8d3e-e1d4fa9ab680.json
@@ -0,0 +1,1016 @@
+{
+  "uuid": "XLSX-9c8b990c-b31c-493e-8d3e-e1d4fa9ab680",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ffd24485-3b05-3afe-b6ff-547800723f71"
+    },
+    "company": {
+      "uuid": "XLSX-4bb81f08-059d-32ad-b5fd-71c6bcc6e0db",
+      "name": "FP7 MARINA"
+    }
+  },
+  "citation": {
+    "title": "http://dx.doi.org/10.1371/journal.pone.0127174",
+    "year": "2015",
+    "owner": "P32 - KI"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "Cell viability - cell membrane damage: Lactate dehydrogenase assay (LDH)  (CytoTox 96® Non-radioactive cytotoxicity assay - Promega, G1780) ",
+    "guideline": [
+      "Cytotoxicity using human monocyte-derived macrophages (HMDM)"
+    ]
+  },
+  "parameters": {
+    "CHMO:0002774": "N",
+    "CLO_0000031": "HMDM",
+    "CLO_0000031 EFO_0004443": "Karolinska University Hospital, Stockholm, Sweden - buffy coats from healthy adult blood donors ",
+    "Cell culture conditions - Serum": "FBS (Gibco, 10500) ",
+    "Cell culture conditions - Serum concentration in growth medium": 0.1,
+    "Cell culture conditions - Serum concentration in treatment medium": "0,05%",
+    "Cell line/Type - Full name": "Primary human monocyte-derived macrophages (HMDM)",
+    "Dispersion agent": "water with 0,05% BSA",
+    "NPO_1952": "Y",
+    "NPO_1961": "Y",
+    "NPO_1969 OBI_0000272": "NANOGENOTOX Dispersion protocol (http://www.nanogenotox.eu/files/PDF/web%20nanogenotox%20dispersion%20protocol.pdf) ",
+    "OBI_0001911 BAO_0000114": "RPMI (Sigma, R0833)"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 108.781
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 106.652
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 105.891
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 107.078
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 108.447
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 112.329
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.237
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 95.211
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.02
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.927
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.629
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.728
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 95.639
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 88.661
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.11
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.652
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 98.958
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.308
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.732
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 106.245
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 6,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.144
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 94.158
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 90.881
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 89.114
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.279
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.897
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.316
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 1",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 84.103
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.724
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.653
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 97.724
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100.39
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 102.499
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.344
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 2",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 99.792
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 0,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 100
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 1,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 93.762
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 5,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 91.671
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 10,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 87.902
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 25,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 88.886
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 50,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.703
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 75,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 96.042
+      }
+    },
+    {
+      "endpoint": "% cell viability",
+      "conditions": {
+        "Concentration": {
+          "loQualifier": "=",
+          "loValue": 100,
+          "unit": "µg/ml"
+        },
+        "Replicate": "Replicate 3",
+        "Time point": {
+          "loQualifier": "=",
+          "loValue": 24,
+          "unit": "h"
+        }
+      },
+      "result": {
+        "unit": "%",
+        "loValue": 92.458
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9d7cf58e-ab64-4366-9860-e81db77b8916.json b/test/data/enm/study-XLSX-9d7cf58e-ab64-4366-9860-e81db77b8916.json
new file mode 100644
index 0000000..5a26cda
--- /dev/null
+++ b/test/data/enm/study-XLSX-9d7cf58e-ab64-4366-9860-e81db77b8916.json
@@ -0,0 +1,51 @@
+{
+  "uuid": "XLSX-9d7cf58e-ab64-4366-9860-e81db77b8916",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "063",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "063",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Heterogeneous"
+  },
+  "effects": [
+    {
+      "endpoint": "",
+      "conditions": {
+      },
+      "result": {
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9eed2c42-e5da-44ca-98b8-a8683e6eb4d9.json b/test/data/enm/study-XLSX-9eed2c42-e5da-44ca-98b8-a8683e6eb4d9.json
new file mode 100644
index 0000000..37ef936
--- /dev/null
+++ b/test/data/enm/study-XLSX-9eed2c42-e5da-44ca-98b8-a8683e6eb4d9.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-9eed2c42-e5da-44ca-98b8-a8683e6eb4d9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "103",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "103",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "round/oblong"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9fb561c6-a921-4171-a484-ecafa9355f43.json b/test/data/enm/study-XLSX-9fb561c6-a921-4171-a484-ecafa9355f43.json
new file mode 100644
index 0000000..2c8509b
--- /dev/null
+++ b/test/data/enm/study-XLSX-9fb561c6-a921-4171-a484-ecafa9355f43.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-9fb561c6-a921-4171-a484-ecafa9355f43",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5cd11301-7cf1-3402-aaf8-853e5ed8ccde"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "177",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "177",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 170
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 310
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a047ee3a-7b56-4e5f-bdae-3695eefb80a1.json b/test/data/enm/study-XLSX-a047ee3a-7b56-4e5f-bdae-3695eefb80a1.json
new file mode 100644
index 0000000..93c084c
--- /dev/null
+++ b/test/data/enm/study-XLSX-a047ee3a-7b56-4e5f-bdae-3695eefb80a1.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a047ee3a-7b56-4e5f-bdae-3695eefb80a1",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "130",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "130",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 20.929
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 59.409
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.539
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a05c36d7-b409-4400-afbb-2d3157a47feb.json b/test/data/enm/study-XLSX-a05c36d7-b409-4400-afbb-2d3157a47feb.json
new file mode 100644
index 0000000..bd98511
--- /dev/null
+++ b/test/data/enm/study-XLSX-a05c36d7-b409-4400-afbb-2d3157a47feb.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a05c36d7-b409-4400-afbb-2d3157a47feb",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "175",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "175",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 92.799
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 446.42
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.145
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-64e97bde-be4b-34fb-b216-85724e66b02a.json b/test/data/enm/study-XLSX-a0b34fb3-ccd4-4dad-b1ff-4923745745cd.json
index 7b1df01..7b1df01 100644
--- a/test/data/enm/study-XLSX-64e97bde-be4b-34fb-b216-85724e66b02a.json
+++ b/test/data/enm/study-XLSX-a0b34fb3-ccd4-4dad-b1ff-4923745745cd.json
diff --git a/test/data/enm/study-XLSX-a0dab393-5a42-42b7-8424-ba352f42811f.json b/test/data/enm/study-XLSX-a0dab393-5a42-42b7-8424-ba352f42811f.json
new file mode 100644
index 0000000..4f289d0
--- /dev/null
+++ b/test/data/enm/study-XLSX-a0dab393-5a42-42b7-8424-ba352f42811f.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a0dab393-5a42-42b7-8424-ba352f42811f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "099",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "099",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 306.165
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 360.85
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.187
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a1429af3-925b-4fd0-9652-3144efbe96bf.json b/test/data/enm/study-XLSX-a1429af3-925b-4fd0-9652-3144efbe96bf.json
new file mode 100644
index 0000000..c424db9
--- /dev/null
+++ b/test/data/enm/study-XLSX-a1429af3-925b-4fd0-9652-3144efbe96bf.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a1429af3-925b-4fd0-9652-3144efbe96bf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "141",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "141",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "elongated"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a1d6108c-3461-41dc-bf7a-f83cedb47e41.json b/test/data/enm/study-XLSX-a1d6108c-3461-41dc-bf7a-f83cedb47e41.json
new file mode 100644
index 0000000..45a6d29
--- /dev/null
+++ b/test/data/enm/study-XLSX-a1d6108c-3461-41dc-bf7a-f83cedb47e41.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a1d6108c-3461-41dc-bf7a-f83cedb47e41",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "145",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "145",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 512.728
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 902.739
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a2abfc7c-9df5-4129-aad9-37c4f3366f71.json b/test/data/enm/study-XLSX-a2abfc7c-9df5-4129-aad9-37c4f3366f71.json
new file mode 100644
index 0000000..5bc0b2d
--- /dev/null
+++ b/test/data/enm/study-XLSX-a2abfc7c-9df5-4129-aad9-37c4f3366f71.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a2abfc7c-9df5-4129-aad9-37c4f3366f71",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "146",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "146",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 493.144
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1849.588
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 54.258
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a336e49f-75ba-477d-acb6-7d6abe0eff8f.json b/test/data/enm/study-XLSX-a336e49f-75ba-477d-acb6-7d6abe0eff8f.json
new file mode 100644
index 0000000..d888e7b
--- /dev/null
+++ b/test/data/enm/study-XLSX-a336e49f-75ba-477d-acb6-7d6abe0eff8f.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a336e49f-75ba-477d-acb6-7d6abe0eff8f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5a273d77-e518-3523-b377-c06f08182be1"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "021",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "021",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 14.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a43d29ec-b7f4-40ef-a9fc-9178db646c83.json b/test/data/enm/study-XLSX-a43d29ec-b7f4-40ef-a9fc-9178db646c83.json
new file mode 100644
index 0000000..d12fc7b
--- /dev/null
+++ b/test/data/enm/study-XLSX-a43d29ec-b7f4-40ef-a9fc-9178db646c83.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a43d29ec-b7f4-40ef-a9fc-9178db646c83",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "012",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "012",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "round"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a5483c3a-0b3e-400f-aff8-55dd5a1599bd.json b/test/data/enm/study-XLSX-a5483c3a-0b3e-400f-aff8-55dd5a1599bd.json
new file mode 100644
index 0000000..82c9572
--- /dev/null
+++ b/test/data/enm/study-XLSX-a5483c3a-0b3e-400f-aff8-55dd5a1599bd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a5483c3a-0b3e-400f-aff8-55dd5a1599bd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "179",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "179",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio 1(20–250 nm) and aspect ratio 2:8.5 (10–450 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a56cbeaa-ece4-4768-a70c-bc54bb329b78.json b/test/data/enm/study-XLSX-a56cbeaa-ece4-4768-a70c-bc54bb329b78.json
new file mode 100644
index 0000000..bfcf856
--- /dev/null
+++ b/test/data/enm/study-XLSX-a56cbeaa-ece4-4768-a70c-bc54bb329b78.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a56cbeaa-ece4-4768-a70c-bc54bb329b78",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "176",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "176",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio 1(20–250 nm) and aspect ratio 2:8.5 (10–450 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a5a35727-466c-4ffb-acb8-e33b79af6e3e.json b/test/data/enm/study-XLSX-a5a35727-466c-4ffb-acb8-e33b79af6e3e.json
new file mode 100644
index 0000000..a625582
--- /dev/null
+++ b/test/data/enm/study-XLSX-a5a35727-466c-4ffb-acb8-e33b79af6e3e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a5a35727-466c-4ffb-acb8-e33b79af6e3e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "063",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "063",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 72,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.156
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.737
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.423
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a62ab9a0-c6bd-4ef8-87ec-4198433fd32c.json b/test/data/enm/study-XLSX-a62ab9a0-c6bd-4ef8-87ec-4198433fd32c.json
new file mode 100644
index 0000000..edbde7e
--- /dev/null
+++ b/test/data/enm/study-XLSX-a62ab9a0-c6bd-4ef8-87ec-4198433fd32c.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a62ab9a0-c6bd-4ef8-87ec-4198433fd32c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "183",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "183",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 11.144
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.33
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.207
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a7a3671c-5597-440b-8a67-988e6a312d38.json b/test/data/enm/study-XLSX-a7a3671c-5597-440b-8a67-988e6a312d38.json
new file mode 100644
index 0000000..1648d05
--- /dev/null
+++ b/test/data/enm/study-XLSX-a7a3671c-5597-440b-8a67-988e6a312d38.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a7a3671c-5597-440b-8a67-988e6a312d38",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-c42f434e-6295-3715-8a23-ce26f87642a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "187",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "187",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 102.061
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23702.809
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 944.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a7ca238e-20b3-4531-88fa-31f1e0e64711.json b/test/data/enm/study-XLSX-a7ca238e-20b3-4531-88fa-31f1e0e64711.json
new file mode 100644
index 0000000..e604ef9
--- /dev/null
+++ b/test/data/enm/study-XLSX-a7ca238e-20b3-4531-88fa-31f1e0e64711.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a7ca238e-20b3-4531-88fa-31f1e0e64711",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "060",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "060",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 2,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 10.767
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 51.388
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.625
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a8868438-dc46-4c83-9993-9fcc22cf2875.json b/test/data/enm/study-XLSX-a8868438-dc46-4c83-9993-9fcc22cf2875.json
new file mode 100644
index 0000000..e4e6eb4
--- /dev/null
+++ b/test/data/enm/study-XLSX-a8868438-dc46-4c83-9993-9fcc22cf2875.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-a8868438-dc46-4c83-9993-9fcc22cf2875",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "081",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "081",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a8bf29af-8575-4880-97ae-38165bf06f29.json b/test/data/enm/study-XLSX-a8bf29af-8575-4880-97ae-38165bf06f29.json
new file mode 100644
index 0000000..42b307f
--- /dev/null
+++ b/test/data/enm/study-XLSX-a8bf29af-8575-4880-97ae-38165bf06f29.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a8bf29af-8575-4880-97ae-38165bf06f29",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "120",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "120",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 11.366
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.082
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.189
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a8cf1175-b240-4fd9-bb34-fe0c1ad19cbc.json b/test/data/enm/study-XLSX-a8cf1175-b240-4fd9-bb34-fe0c1ad19cbc.json
new file mode 100644
index 0000000..6ce07fd
--- /dev/null
+++ b/test/data/enm/study-XLSX-a8cf1175-b240-4fd9-bb34-fe0c1ad19cbc.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-a8cf1175-b240-4fd9-bb34-fe0c1ad19cbc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2aef353b-440f-32a7-8447-1974997a69a8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "190",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "190",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 167.707
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 764.28
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23.863
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-254d54ae-e3ba-36d9-8dbd-c84d2296bb24.json b/test/data/enm/study-XLSX-a935b824-81e4-4226-8471-1ea5ee9a1462.json
index 587a09c..587a09c 100644
--- a/test/data/enm/study-XLSX-254d54ae-e3ba-36d9-8dbd-c84d2296bb24.json
+++ b/test/data/enm/study-XLSX-a935b824-81e4-4226-8471-1ea5ee9a1462.json
diff --git a/test/data/enm/study-XLSX-aa833780-b59c-4cba-b7a2-6ea9ff4c0dfd.json b/test/data/enm/study-XLSX-aa833780-b59c-4cba-b7a2-6ea9ff4c0dfd.json
new file mode 100644
index 0000000..95bb970
--- /dev/null
+++ b/test/data/enm/study-XLSX-aa833780-b59c-4cba-b7a2-6ea9ff4c0dfd.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-aa833780-b59c-4cba-b7a2-6ea9ff4c0dfd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "020",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "020",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 22.657
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 77.437
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.191
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-aaf7cd45-f792-4990-ad2b-a7fecfac4baf.json b/test/data/enm/study-XLSX-aaf7cd45-f792-4990-ad2b-a7fecfac4baf.json
new file mode 100644
index 0000000..28a235a
--- /dev/null
+++ b/test/data/enm/study-XLSX-aaf7cd45-f792-4990-ad2b-a7fecfac4baf.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-aaf7cd45-f792-4990-ad2b-a7fecfac4baf",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "103",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "103",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 159
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ab048fd9-e165-4ccb-aaf2-03d537f8c4aa.json b/test/data/enm/study-XLSX-ab048fd9-e165-4ccb-aaf2-03d537f8c4aa.json
new file mode 100644
index 0000000..e1111f0
--- /dev/null
+++ b/test/data/enm/study-XLSX-ab048fd9-e165-4ccb-aaf2-03d537f8c4aa.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ab048fd9-e165-4ccb-aaf2-03d537f8c4aa",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "132",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "132",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SH-SY5Y",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 3,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 324.686
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 606.981
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 11.292
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6.json b/test/data/enm/study-XLSX-ab328a52-255b-4273-b22e-c57d6992af2d.json
index 63ed797..63ed797 100644
--- a/test/data/enm/study-XLSX-a1b25bf2-6046-3c16-ba1c-3efb11b5a4d6.json
+++ b/test/data/enm/study-XLSX-ab328a52-255b-4273-b22e-c57d6992af2d.json
diff --git a/test/data/enm/study-XLSX-ab7c83f6-6b4f-4a9a-8171-1e65edbc5733.json b/test/data/enm/study-XLSX-ab7c83f6-6b4f-4a9a-8171-1e65edbc5733.json
new file mode 100644
index 0000000..c950d3e
--- /dev/null
+++ b/test/data/enm/study-XLSX-ab7c83f6-6b4f-4a9a-8171-1e65edbc5733.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-ab7c83f6-6b4f-4a9a-8171-1e65edbc5733",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "083",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "083",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Stirring"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 5
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 13
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 5743
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-abd6a23d-e9ed-494b-8fb4-f5e46a84c330.json b/test/data/enm/study-XLSX-abd6a23d-e9ed-494b-8fb4-f5e46a84c330.json
new file mode 100644
index 0000000..aec213a
--- /dev/null
+++ b/test/data/enm/study-XLSX-abd6a23d-e9ed-494b-8fb4-f5e46a84c330.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-abd6a23d-e9ed-494b-8fb4-f5e46a84c330",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "103",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "103",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 46.88
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 72.625
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2aef353b-440f-32a7-8447-1974997a69a8.json b/test/data/enm/study-XLSX-ac16e65e-a24a-4453-8caf-c080a91c3fd2.json
index 5f8dd8a..5f8dd8a 100644
--- a/test/data/enm/study-XLSX-2aef353b-440f-32a7-8447-1974997a69a8.json
+++ b/test/data/enm/study-XLSX-ac16e65e-a24a-4453-8caf-c080a91c3fd2.json
diff --git a/test/data/enm/study-XLSX-ac2c77a1-4e2f-44db-85f5-c75958709285.json b/test/data/enm/study-XLSX-ac2c77a1-4e2f-44db-85f5-c75958709285.json
new file mode 100644
index 0000000..063b172
--- /dev/null
+++ b/test/data/enm/study-XLSX-ac2c77a1-4e2f-44db-85f5-c75958709285.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-ac2c77a1-4e2f-44db-85f5-c75958709285",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "119",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "119",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 16
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 24
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 319
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ac6f6855-f918-42a8-acc0-df0852439343.json b/test/data/enm/study-XLSX-ac6f6855-f918-42a8-acc0-df0852439343.json
new file mode 100644
index 0000000..47ad680
--- /dev/null
+++ b/test/data/enm/study-XLSX-ac6f6855-f918-42a8-acc0-df0852439343.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ac6f6855-f918-42a8-acc0-df0852439343",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-251091e3-55d1-36b3-854c-d1933ec46461"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "027",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "027",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 15.721
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 131.872
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.646
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3.json b/test/data/enm/study-XLSX-aca70626-8237-42de-84c9-39abeeec29bf.json
index 15aab0b..15aab0b 100644
--- a/test/data/enm/study-XLSX-aa7e2fd6-c054-35ed-a9d9-1f40c1d179a3.json
+++ b/test/data/enm/study-XLSX-aca70626-8237-42de-84c9-39abeeec29bf.json
diff --git a/test/data/enm/study-XLSX-acbfcef0-41b2-4e88-8339-6bbed4bd54ad.json b/test/data/enm/study-XLSX-acbfcef0-41b2-4e88-8339-6bbed4bd54ad.json
new file mode 100644
index 0000000..f38d93c
--- /dev/null
+++ b/test/data/enm/study-XLSX-acbfcef0-41b2-4e88-8339-6bbed4bd54ad.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-acbfcef0-41b2-4e88-8339-6bbed4bd54ad",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "131",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "131",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -30.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ad2eb9a2-29c3-4196-97ca-8c6b61e49d63.json b/test/data/enm/study-XLSX-ad2eb9a2-29c3-4196-97ca-8c6b61e49d63.json
new file mode 100644
index 0000000..4be7771
--- /dev/null
+++ b/test/data/enm/study-XLSX-ad2eb9a2-29c3-4196-97ca-8c6b61e49d63.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ad2eb9a2-29c3-4196-97ca-8c6b61e49d63",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "102",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "102",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 52.36
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 75.424
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.923
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751.json b/test/data/enm/study-XLSX-afed0a8a-a644-4b2e-afc4-738f8b84c2eb.json
index 22556dd..22556dd 100644
--- a/test/data/enm/study-XLSX-f1b0af03-df66-3849-93cc-4ca706c0f751.json
+++ b/test/data/enm/study-XLSX-afed0a8a-a644-4b2e-afc4-738f8b84c2eb.json
diff --git a/test/data/enm/study-XLSX-b12efbec-ec75-456f-a51f-176f137037aa.json b/test/data/enm/study-XLSX-b12efbec-ec75-456f-a51f-176f137037aa.json
new file mode 100644
index 0000000..7bb7618
--- /dev/null
+++ b/test/data/enm/study-XLSX-b12efbec-ec75-456f-a51f-176f137037aa.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-b12efbec-ec75-456f-a51f-176f137037aa",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7677801c-4895-3ffd-807a-832c589341df"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "151",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "151",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b1b21fdc-b9aa-4783-a17f-379734d0574c.json b/test/data/enm/study-XLSX-b1b21fdc-b9aa-4783-a17f-379734d0574c.json
new file mode 100644
index 0000000..b23b1f2
--- /dev/null
+++ b/test/data/enm/study-XLSX-b1b21fdc-b9aa-4783-a17f-379734d0574c.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-b1b21fdc-b9aa-4783-a17f-379734d0574c",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-251091e3-55d1-36b3-854c-d1933ec46461"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "027",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "027",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 8
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b34234d4-bef1-4fef-ac7f-38435df1781d.json b/test/data/enm/study-XLSX-b34234d4-bef1-4fef-ac7f-38435df1781d.json
new file mode 100644
index 0000000..ab47c18
--- /dev/null
+++ b/test/data/enm/study-XLSX-b34234d4-bef1-4fef-ac7f-38435df1781d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-b34234d4-bef1-4fef-ac7f-38435df1781d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "133",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "133",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SH-SY5Y",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 6,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1857.212
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 11349.986
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 379.711
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b378a9c3-bc69-4b20-a261-b652321b0b4d.json b/test/data/enm/study-XLSX-b378a9c3-bc69-4b20-a261-b652321b0b4d.json
new file mode 100644
index 0000000..73af0a6
--- /dev/null
+++ b/test/data/enm/study-XLSX-b378a9c3-bc69-4b20-a261-b652321b0b4d.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-b378a9c3-bc69-4b20-a261-b652321b0b4d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ade46bc8-d87f-3f9b-afd0-11ca32e5caeb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "178",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "178",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio 1(20–250 nm) and aspect ratio 2:8.5 (10–450 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b3b95bc8-cb08-4ae0-aec1-df7d9ba1d4f5.json b/test/data/enm/study-XLSX-b3b95bc8-cb08-4ae0-aec1-df7d9ba1d4f5.json
new file mode 100644
index 0000000..3961be5
--- /dev/null
+++ b/test/data/enm/study-XLSX-b3b95bc8-cb08-4ae0-aec1-df7d9ba1d4f5.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-b3b95bc8-cb08-4ae0-aec1-df7d9ba1d4f5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "004",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "004",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 575.472
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 779.306
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.153
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b49c9402-ac61-4b6e-83bf-6fbb749325f2.json b/test/data/enm/study-XLSX-b49c9402-ac61-4b6e-83bf-6fbb749325f2.json
new file mode 100644
index 0000000..d232d00
--- /dev/null
+++ b/test/data/enm/study-XLSX-b49c9402-ac61-4b6e-83bf-6fbb749325f2.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-b49c9402-ac61-4b6e-83bf-6fbb749325f2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "167",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "167",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 24.3
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b5b9a882-9563-4a07-a878-5a77385b69cc.json b/test/data/enm/study-XLSX-b5b9a882-9563-4a07-a878-5a77385b69cc.json
new file mode 100644
index 0000000..d135c4c
--- /dev/null
+++ b/test/data/enm/study-XLSX-b5b9a882-9563-4a07-a878-5a77385b69cc.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-b5b9a882-9563-4a07-a878-5a77385b69cc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ade46bc8-d87f-3f9b-afd0-11ca32e5caeb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "178",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "178",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "mES",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 240,
+    "Serum concentration,%": 0.15
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.273
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 9.65
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.055
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b65865f0-f8d0-43fa-9395-f8416d794590.json b/test/data/enm/study-XLSX-b65865f0-f8d0-43fa-9395-f8416d794590.json
new file mode 100644
index 0000000..6f3d4a8
--- /dev/null
+++ b/test/data/enm/study-XLSX-b65865f0-f8d0-43fa-9395-f8416d794590.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-b65865f0-f8d0-43fa-9395-f8416d794590",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "007",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "007",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 182.915
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 293.624
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.428
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-b686cad9-ae22-4bde-bd69-96bd964a63be.json b/test/data/enm/study-XLSX-b686cad9-ae22-4bde-bd69-96bd964a63be.json
new file mode 100644
index 0000000..94d9cec
--- /dev/null
+++ b/test/data/enm/study-XLSX-b686cad9-ae22-4bde-bd69-96bd964a63be.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-b686cad9-ae22-4bde-bd69-96bd964a63be",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ad0a7571-a887-3611-a508-f32ad71f20be"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "079",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "079",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": ""
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ba37cf7d-884b-49a2-947e-e162ea7bcf89.json b/test/data/enm/study-XLSX-ba37cf7d-884b-49a2-947e-e162ea7bcf89.json
new file mode 100644
index 0000000..bad4ccc
--- /dev/null
+++ b/test/data/enm/study-XLSX-ba37cf7d-884b-49a2-947e-e162ea7bcf89.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-ba37cf7d-884b-49a2-947e-e162ea7bcf89",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "119",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "119",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "(m2/g)",
+        "loValue": 203.92
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bae43e10-571d-4733-97da-cbb0e72b13d3.json b/test/data/enm/study-XLSX-bae43e10-571d-4733-97da-cbb0e72b13d3.json
new file mode 100644
index 0000000..d6c7d19
--- /dev/null
+++ b/test/data/enm/study-XLSX-bae43e10-571d-4733-97da-cbb0e72b13d3.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-bae43e10-571d-4733-97da-cbb0e72b13d3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "185",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "185",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "circles, ellipses, rectangles or squares"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bb5f1e4f-085c-496a-8219-669e19a4955a.json b/test/data/enm/study-XLSX-bb5f1e4f-085c-496a-8219-669e19a4955a.json
new file mode 100644
index 0000000..5c19566
--- /dev/null
+++ b/test/data/enm/study-XLSX-bb5f1e4f-085c-496a-8219-669e19a4955a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bb5f1e4f-085c-496a-8219-669e19a4955a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "059",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "059",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 1,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 5.51
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 29.143
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.945
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bb937f21-da37-4fa8-b1f0-1a0eb28ccf72.json b/test/data/enm/study-XLSX-bb937f21-da37-4fa8-b1f0-1a0eb28ccf72.json
new file mode 100644
index 0000000..1ac08a6
--- /dev/null
+++ b/test/data/enm/study-XLSX-bb937f21-da37-4fa8-b1f0-1a0eb28ccf72.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bb937f21-da37-4fa8-b1f0-1a0eb28ccf72",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ad0a7571-a887-3611-a508-f32ad71f20be"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "078",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "078",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 6.156
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.615
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.418
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bc7b3164-f03a-4700-a535-8c8c79587b22.json b/test/data/enm/study-XLSX-bc7b3164-f03a-4700-a535-8c8c79587b22.json
new file mode 100644
index 0000000..dbdac0a
--- /dev/null
+++ b/test/data/enm/study-XLSX-bc7b3164-f03a-4700-a535-8c8c79587b22.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bc7b3164-f03a-4700-a535-8c8c79587b22",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "054",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "054",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 2,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 25.065
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 62.989
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.517
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bd7e614c-d9df-41fa-964b-4e36f440cd06.json b/test/data/enm/study-XLSX-bd7e614c-d9df-41fa-964b-4e36f440cd06.json
new file mode 100644
index 0000000..4c1f3ee
--- /dev/null
+++ b/test/data/enm/study-XLSX-bd7e614c-d9df-41fa-964b-4e36f440cd06.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-bd7e614c-d9df-41fa-964b-4e36f440cd06",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "113",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "113",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 22
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 238
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bdde064a-bb90-4805-a737-81fa8c2775e6.json b/test/data/enm/study-XLSX-bdde064a-bb90-4805-a737-81fa8c2775e6.json
new file mode 100644
index 0000000..4cb1dcf
--- /dev/null
+++ b/test/data/enm/study-XLSX-bdde064a-bb90-4805-a737-81fa8c2775e6.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bdde064a-bb90-4805-a737-81fa8c2775e6",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5e44448d-216f-3b91-891a-a7e1de030a13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "186",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "186",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 71.594
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 104.074
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.299
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-be9e53fb-9f30-402b-b0e3-e655a0d3d38f.json b/test/data/enm/study-XLSX-be9e53fb-9f30-402b-b0e3-e655a0d3d38f.json
new file mode 100644
index 0000000..7e7a88c
--- /dev/null
+++ b/test/data/enm/study-XLSX-be9e53fb-9f30-402b-b0e3-e655a0d3d38f.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-be9e53fb-9f30-402b-b0e3-e655a0d3d38f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2ca46b71-491d-3e73-9b4c-3fb885705274"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "157",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "157",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "irregular spheres (1–4 nm), euhedral particle (10–100 nm), fractal-like structures (100–200 nm), big irregular polyhedral parti"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bf043d25-9771-44e7-bf9f-45d56af83b89.json b/test/data/enm/study-XLSX-bf043d25-9771-44e7-bf9f-45d56af83b89.json
new file mode 100644
index 0000000..2cbc9ca
--- /dev/null
+++ b/test/data/enm/study-XLSX-bf043d25-9771-44e7-bf9f-45d56af83b89.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-bf043d25-9771-44e7-bf9f-45d56af83b89",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-c42f434e-6295-3715-8a23-ce26f87642a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "188",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "188",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 28
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bf0a5f5d-08e3-4fae-89c4-0e457d2b360a.json b/test/data/enm/study-XLSX-bf0a5f5d-08e3-4fae-89c4-0e457d2b360a.json
new file mode 100644
index 0000000..6023696
--- /dev/null
+++ b/test/data/enm/study-XLSX-bf0a5f5d-08e3-4fae-89c4-0e457d2b360a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bf0a5f5d-08e3-4fae-89c4-0e457d2b360a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "052",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "052",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": "0,5",
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 17.859
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 51.039
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.327
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-bf8e4645-e635-4c75-bf83-2ab6f09ea04d.json b/test/data/enm/study-XLSX-bf8e4645-e635-4c75-bf83-2ab6f09ea04d.json
new file mode 100644
index 0000000..bf791db
--- /dev/null
+++ b/test/data/enm/study-XLSX-bf8e4645-e635-4c75-bf83-2ab6f09ea04d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-bf8e4645-e635-4c75-bf83-2ab6f09ea04d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "055",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "055",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 8.678
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 20.706
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.481
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c08c12ec-761b-47d7-85bb-0c7af4d36e5e.json b/test/data/enm/study-XLSX-c08c12ec-761b-47d7-85bb-0c7af4d36e5e.json
new file mode 100644
index 0000000..62cd93f
--- /dev/null
+++ b/test/data/enm/study-XLSX-c08c12ec-761b-47d7-85bb-0c7af4d36e5e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c08c12ec-761b-47d7-85bb-0c7af4d36e5e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "128",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "128",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 33.663
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 49.612
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.638
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c107487a-43f2-499d-836b-849500f07a7b.json b/test/data/enm/study-XLSX-c107487a-43f2-499d-836b-849500f07a7b.json
new file mode 100644
index 0000000..498cfa7
--- /dev/null
+++ b/test/data/enm/study-XLSX-c107487a-43f2-499d-836b-849500f07a7b.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-c107487a-43f2-499d-836b-849500f07a7b",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "028",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "028",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.2
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 81.2
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 155
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6.json b/test/data/enm/study-XLSX-c1cb4d7b-333a-4ca0-9a9e-82f77d809b73.json
index 2052a32..2052a32 100644
--- a/test/data/enm/study-XLSX-5efaa24e-6eb5-3f1f-a9f4-680bc92364d6.json
+++ b/test/data/enm/study-XLSX-c1cb4d7b-333a-4ca0-9a9e-82f77d809b73.json
diff --git a/test/data/enm/study-XLSX-ad0a7571-a887-3611-a508-f32ad71f20be.json b/test/data/enm/study-XLSX-c1cf764a-885c-46cd-bad1-83de62f8e04c.json
index d97fe7e..d97fe7e 100644
--- a/test/data/enm/study-XLSX-ad0a7571-a887-3611-a508-f32ad71f20be.json
+++ b/test/data/enm/study-XLSX-c1cf764a-885c-46cd-bad1-83de62f8e04c.json
diff --git a/test/data/enm/study-XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6.json b/test/data/enm/study-XLSX-c25ead1f-7e35-4a65-bfc6-44ae04c3ee8a.json
index b3a8558..b3a8558 100644
--- a/test/data/enm/study-XLSX-6fac9681-a5c7-337c-9e35-87c04579f0e6.json
+++ b/test/data/enm/study-XLSX-c25ead1f-7e35-4a65-bfc6-44ae04c3ee8a.json
diff --git a/test/data/enm/study-XLSX-c29fd89c-ff90-43a9-a0f0-6c35478ce732.json b/test/data/enm/study-XLSX-c29fd89c-ff90-43a9-a0f0-6c35478ce732.json
new file mode 100644
index 0000000..98a0f2a
--- /dev/null
+++ b/test/data/enm/study-XLSX-c29fd89c-ff90-43a9-a0f0-6c35478ce732.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-c29fd89c-ff90-43a9-a0f0-6c35478ce732",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5a273d77-e518-3523-b377-c06f08182be1"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "021",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "021",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c31ebb5c-2eca-409b-8db1-e6c16d766d0e.json b/test/data/enm/study-XLSX-c31ebb5c-2eca-409b-8db1-e6c16d766d0e.json
new file mode 100644
index 0000000..dd1fd6d
--- /dev/null
+++ b/test/data/enm/study-XLSX-c31ebb5c-2eca-409b-8db1-e6c16d766d0e.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c31ebb5c-2eca-409b-8db1-e6c16d766d0e",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "069",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "069",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SK-OV-3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 72,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 49.303
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 139.828
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.621
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b.json b/test/data/enm/study-XLSX-c324c907-a6cb-4c9f-aa3b-c19f186edf94.json
index c5395bc..c5395bc 100644
--- a/test/data/enm/study-XLSX-1a8410a0-279c-3e82-bdfb-ce96b534df9b.json
+++ b/test/data/enm/study-XLSX-c324c907-a6cb-4c9f-aa3b-c19f186edf94.json
diff --git a/test/data/enm/study-XLSX-c38223c2-1f6d-4ab9-893a-23d71fa75bda.json b/test/data/enm/study-XLSX-c38223c2-1f6d-4ab9-893a-23d71fa75bda.json
new file mode 100644
index 0000000..296d4fd
--- /dev/null
+++ b/test/data/enm/study-XLSX-c38223c2-1f6d-4ab9-893a-23d71fa75bda.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c38223c2-1f6d-4ab9-893a-23d71fa75bda",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7d5a7a1b-5069-3256-b796-2361afcf3bfe"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "032",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "032",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 438.41
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4714.513
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 171.044
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c3ce7a70-7346-42b7-8e09-bda2d8bd801f.json b/test/data/enm/study-XLSX-c3ce7a70-7346-42b7-8e09-bda2d8bd801f.json
new file mode 100644
index 0000000..a224d67
--- /dev/null
+++ b/test/data/enm/study-XLSX-c3ce7a70-7346-42b7-8e09-bda2d8bd801f.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c3ce7a70-7346-42b7-8e09-bda2d8bd801f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "096",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "096",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "16HBE",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2171.636
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2891.434
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 28.792
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c47b5dd9-287a-4e8b-a0da-dbaa70206cf4.json b/test/data/enm/study-XLSX-c47b5dd9-287a-4e8b-a0da-dbaa70206cf4.json
new file mode 100644
index 0000000..4f70608
--- /dev/null
+++ b/test/data/enm/study-XLSX-c47b5dd9-287a-4e8b-a0da-dbaa70206cf4.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-c47b5dd9-287a-4e8b-a0da-dbaa70206cf4",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "155",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "155",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 2149
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c48f796c-2919-46a0-ab3a-19c23a9de14f.json b/test/data/enm/study-XLSX-c48f796c-2919-46a0-ab3a-19c23a9de14f.json
new file mode 100644
index 0000000..5af3f3f
--- /dev/null
+++ b/test/data/enm/study-XLSX-c48f796c-2919-46a0-ab3a-19c23a9de14f.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c48f796c-2919-46a0-ab3a-19c23a9de14f",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "080",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "080",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.208
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 20.516
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.252
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c505007a-1cf7-4452-b2eb-3357e55905d0.json b/test/data/enm/study-XLSX-c505007a-1cf7-4452-b2eb-3357e55905d0.json
new file mode 100644
index 0000000..f4585ec
--- /dev/null
+++ b/test/data/enm/study-XLSX-c505007a-1cf7-4452-b2eb-3357e55905d0.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c505007a-1cf7-4452-b2eb-3357e55905d0",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "179",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "179",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NIH/3T3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 240,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.051
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.401
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.014
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ade46bc8-d87f-3f9b-afd0-11ca32e5caeb.json b/test/data/enm/study-XLSX-c52b866d-3b4d-4406-9124-b9dd0c30a32f.json
index 988a684..988a684 100644
--- a/test/data/enm/study-XLSX-ade46bc8-d87f-3f9b-afd0-11ca32e5caeb.json
+++ b/test/data/enm/study-XLSX-c52b866d-3b4d-4406-9124-b9dd0c30a32f.json
diff --git a/test/data/enm/study-XLSX-c6bb8d8e-34ed-4fa9-8a94-95b2523ac084.json b/test/data/enm/study-XLSX-c6bb8d8e-34ed-4fa9-8a94-95b2523ac084.json
new file mode 100644
index 0000000..47da4c5
--- /dev/null
+++ b/test/data/enm/study-XLSX-c6bb8d8e-34ed-4fa9-8a94-95b2523ac084.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-c6bb8d8e-34ed-4fa9-8a94-95b2523ac084",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "127",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "127",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c7dbbf47-202e-4aef-ac0d-55da281074b2.json b/test/data/enm/study-XLSX-c7dbbf47-202e-4aef-ac0d-55da281074b2.json
new file mode 100644
index 0000000..ab13c04
--- /dev/null
+++ b/test/data/enm/study-XLSX-c7dbbf47-202e-4aef-ac0d-55da281074b2.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-c7dbbf47-202e-4aef-ac0d-55da281074b2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "134",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "134",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "espherical"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c801dfb0-b44b-406b-a89f-9a96c569c2a7.json b/test/data/enm/study-XLSX-c801dfb0-b44b-406b-a89f-9a96c569c2a7.json
new file mode 100644
index 0000000..85f5a2e
--- /dev/null
+++ b/test/data/enm/study-XLSX-c801dfb0-b44b-406b-a89f-9a96c569c2a7.json
@@ -0,0 +1,63 @@
+{
+  "uuid": "XLSX-c801dfb0-b44b-406b-a89f-9a96c569c2a7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "184",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "184",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 16
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-7d5a7a1b-5069-3256-b796-2361afcf3bfe.json b/test/data/enm/study-XLSX-c831c8c7-d8df-48b6-be26-24aeab85871e.json
index b623efb..b623efb 100644
--- a/test/data/enm/study-XLSX-7d5a7a1b-5069-3256-b796-2361afcf3bfe.json
+++ b/test/data/enm/study-XLSX-c831c8c7-d8df-48b6-be26-24aeab85871e.json
diff --git a/test/data/enm/study-XLSX-c8c7f7a3-450b-4441-828f-721af78fdebd.json b/test/data/enm/study-XLSX-c8c7f7a3-450b-4441-828f-721af78fdebd.json
new file mode 100644
index 0000000..beeffad
--- /dev/null
+++ b/test/data/enm/study-XLSX-c8c7f7a3-450b-4441-828f-721af78fdebd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-c8c7f7a3-450b-4441-828f-721af78fdebd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "185",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "185",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": 40
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c9418c9d-3330-4495-882a-ea25e1480710.json b/test/data/enm/study-XLSX-c9418c9d-3330-4495-882a-ea25e1480710.json
new file mode 100644
index 0000000..0cb7649
--- /dev/null
+++ b/test/data/enm/study-XLSX-c9418c9d-3330-4495-882a-ea25e1480710.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c9418c9d-3330-4495-882a-ea25e1480710",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d7807f7-a13b-392f-88af-fe7885a67502"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "170",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "170",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NIH/3T3",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 240,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.291
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.385
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.044
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c96f15d1-9601-4019-b878-cd25f10678a1.json b/test/data/enm/study-XLSX-c96f15d1-9601-4019-b878-cd25f10678a1.json
new file mode 100644
index 0000000..e8acf5b
--- /dev/null
+++ b/test/data/enm/study-XLSX-c96f15d1-9601-4019-b878-cd25f10678a1.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c96f15d1-9601-4019-b878-cd25f10678a1",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-498d791a-4c0f-3eab-bb2b-bd554637d9af"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "135",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "135",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 318.394
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1041.903
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 28.94
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c9c7dce2-9d8e-4f47-a93e-aac7c27f5f58.json b/test/data/enm/study-XLSX-c9c7dce2-9d8e-4f47-a93e-aac7c27f5f58.json
new file mode 100644
index 0000000..3980b8a
--- /dev/null
+++ b/test/data/enm/study-XLSX-c9c7dce2-9d8e-4f47-a93e-aac7c27f5f58.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-c9c7dce2-9d8e-4f47-a93e-aac7c27f5f58",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "116",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "116",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 240.376
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 310.659
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.811
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-c9d5a3c3-257e-41cf-a445-b6747c2f7fd2.json b/test/data/enm/study-XLSX-c9d5a3c3-257e-41cf-a445-b6747c2f7fd2.json
new file mode 100644
index 0000000..c84e19e
--- /dev/null
+++ b/test/data/enm/study-XLSX-c9d5a3c3-257e-41cf-a445-b6747c2f7fd2.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-c9d5a3c3-257e-41cf-a445-b6747c2f7fd2",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7e2b0550-595b-3427-b6f3-b84211a5c402"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "019",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "019",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 14
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 15
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 95
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ca32b798-cba0-4a0a-89cd-5eeebef7dafc.json b/test/data/enm/study-XLSX-ca32b798-cba0-4a0a-89cd-5eeebef7dafc.json
new file mode 100644
index 0000000..805c8f3
--- /dev/null
+++ b/test/data/enm/study-XLSX-ca32b798-cba0-4a0a-89cd-5eeebef7dafc.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-ca32b798-cba0-4a0a-89cd-5eeebef7dafc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-75ca4d9f-546f-3d7d-a24e-d0d54809cbb3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "039",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "039",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Entangled irregular, mostly bent, some no-onions "
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 125
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-ca6e4f24-b2f5-41c0-ad58-13bbfa3265ab.json b/test/data/enm/study-XLSX-ca6e4f24-b2f5-41c0-ad58-13bbfa3265ab.json
new file mode 100644
index 0000000..a836507
--- /dev/null
+++ b/test/data/enm/study-XLSX-ca6e4f24-b2f5-41c0-ad58-13bbfa3265ab.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-ca6e4f24-b2f5-41c0-ad58-13bbfa3265ab",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "149",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "149",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Bath"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 21.8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 41.2
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 268
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-caa33b31-8bb6-4f2b-a83c-1f11b0ad7da8.json b/test/data/enm/study-XLSX-caa33b31-8bb6-4f2b-a83c-1f11b0ad7da8.json
new file mode 100644
index 0000000..9d21ba1
--- /dev/null
+++ b/test/data/enm/study-XLSX-caa33b31-8bb6-4f2b-a83c-1f11b0ad7da8.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-caa33b31-8bb6-4f2b-a83c-1f11b0ad7da8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "149",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "149",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 334.918
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1542.652
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 48.309
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-cae175fa-1f2f-4d52-8d0b-0af9747925ca.json b/test/data/enm/study-XLSX-cae175fa-1f2f-4d52-8d0b-0af9747925ca.json
new file mode 100644
index 0000000..e0e18be
--- /dev/null
+++ b/test/data/enm/study-XLSX-cae175fa-1f2f-4d52-8d0b-0af9747925ca.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-cae175fa-1f2f-4d52-8d0b-0af9747925ca",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "131",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "131",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "sphere"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5d7807f7-a13b-392f-88af-fe7885a67502.json b/test/data/enm/study-XLSX-cb77a276-f477-4d81-8823-5786a7014f6c.json
index 4650fe2..4650fe2 100644
--- a/test/data/enm/study-XLSX-5d7807f7-a13b-392f-88af-fe7885a67502.json
+++ b/test/data/enm/study-XLSX-cb77a276-f477-4d81-8823-5786a7014f6c.json
diff --git a/test/data/enm/study-XLSX-cbb1aca6-72b7-4d98-b3c7-1e02bbe5323a.json b/test/data/enm/study-XLSX-cbb1aca6-72b7-4d98-b3c7-1e02bbe5323a.json
new file mode 100644
index 0000000..7d8872e
--- /dev/null
+++ b/test/data/enm/study-XLSX-cbb1aca6-72b7-4d98-b3c7-1e02bbe5323a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-cbb1aca6-72b7-4d98-b3c7-1e02bbe5323a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "126",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "126",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 113.814
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1244.237
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 45.217
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-cbe445cd-8bb9-49ef-bd3e-f3659f6bfb25.json b/test/data/enm/study-XLSX-cbe445cd-8bb9-49ef-bd3e-f3659f6bfb25.json
new file mode 100644
index 0000000..3c0a14c
--- /dev/null
+++ b/test/data/enm/study-XLSX-cbe445cd-8bb9-49ef-bd3e-f3659f6bfb25.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-cbe445cd-8bb9-49ef-bd3e-f3659f6bfb25",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "171",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "171",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 21.552
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 43.757
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.888
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-cd5d66d7-ae58-4bab-af4d-56f29f986660.json b/test/data/enm/study-XLSX-cd5d66d7-ae58-4bab-af4d-56f29f986660.json
new file mode 100644
index 0000000..5918609
--- /dev/null
+++ b/test/data/enm/study-XLSX-cd5d66d7-ae58-4bab-af4d-56f29f986660.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-cd5d66d7-ae58-4bab-af4d-56f29f986660",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "099",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ZETA_POTENTIAL_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1302",
+      "title": "4.29 Nanomaterial zeta potential"
+    },
+    "endpoint": "099",
+    "guideline": [
+      "Zeta Potential"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "ZETA POTENTIAL",
+      "conditions": {
+      },
+      "result": {
+        "unit": "mV",
+        "loValue": -39
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5cd11301-7cf1-3402-aaf8-853e5ed8ccde.json b/test/data/enm/study-XLSX-cde8e68b-2c34-4b2b-967f-81fef93db218.json
index 570e57e..570e57e 100644
--- a/test/data/enm/study-XLSX-5cd11301-7cf1-3402-aaf8-853e5ed8ccde.json
+++ b/test/data/enm/study-XLSX-cde8e68b-2c34-4b2b-967f-81fef93db218.json
diff --git a/test/data/enm/study-XLSX-c42f434e-6295-3715-8a23-ce26f87642a6.json b/test/data/enm/study-XLSX-ce8d0524-da9e-4e33-8e53-79461ea52805.json
index 3034784..3034784 100644
--- a/test/data/enm/study-XLSX-c42f434e-6295-3715-8a23-ce26f87642a6.json
+++ b/test/data/enm/study-XLSX-ce8d0524-da9e-4e33-8e53-79461ea52805.json
diff --git a/test/data/enm/study-XLSX-cf6674db-0b52-4419-a840-63e21f5f79a3.json b/test/data/enm/study-XLSX-cf6674db-0b52-4419-a840-63e21f5f79a3.json
new file mode 100644
index 0000000..9e144d2
--- /dev/null
+++ b/test/data/enm/study-XLSX-cf6674db-0b52-4419-a840-63e21f5f79a3.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-cf6674db-0b52-4419-a840-63e21f5f79a3",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "117",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "117",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 223.098
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1154.73
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 37.265
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f.json b/test/data/enm/study-XLSX-d0f67857-85d3-4544-9efe-8dccb8f2f69b.json
index d517951..d517951 100644
--- a/test/data/enm/study-XLSX-acb82e6d-63d6-3cf4-a796-a281b1ba835f.json
+++ b/test/data/enm/study-XLSX-d0f67857-85d3-4544-9efe-8dccb8f2f69b.json
diff --git a/test/data/enm/study-XLSX-d23ad007-9b3d-4a16-b2c0-cdf4c2534c71.json b/test/data/enm/study-XLSX-d23ad007-9b3d-4a16-b2c0-cdf4c2534c71.json
new file mode 100644
index 0000000..ca20c07
--- /dev/null
+++ b/test/data/enm/study-XLSX-d23ad007-9b3d-4a16-b2c0-cdf4c2534c71.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-d23ad007-9b3d-4a16-b2c0-cdf4c2534c71",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "158",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1911_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1911",
+      "title": "NPO_1911 MTT Assay"
+    },
+    "endpoint": "158",
+    "guideline": [
+      "MTT"
+    ]
+  },
+  "parameters": {
+    "Cell line": "SH-SY5Y",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 3,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1903.353
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2354.616
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 18.051
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d2c12e69-e474-495c-b4f0-c771e62e0859.json b/test/data/enm/study-XLSX-d2c12e69-e474-495c-b4f0-c771e62e0859.json
new file mode 100644
index 0000000..6e1dfa9
--- /dev/null
+++ b/test/data/enm/study-XLSX-d2c12e69-e474-495c-b4f0-c771e62e0859.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-d2c12e69-e474-495c-b4f0-c771e62e0859",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "008",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "008",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 48,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 81.133
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 178.493
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.894
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d363410d-1bc7-400d-8ce5-7c260ef0a9fd.json b/test/data/enm/study-XLSX-d363410d-1bc7-400d-8ce5-7c260ef0a9fd.json
new file mode 100644
index 0000000..9442a8a
--- /dev/null
+++ b/test/data/enm/study-XLSX-d363410d-1bc7-400d-8ce5-7c260ef0a9fd.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-d363410d-1bc7-400d-8ce5-7c260ef0a9fd",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-58c9f610-0fef-3009-8112-6ea05d863644"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "168",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "168",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio of 1 (20–250 nm and 400 nm) and 2:7,5 (50-350 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d3a1c00c-e9db-4e87-9488-87655dbbb885.json b/test/data/enm/study-XLSX-d3a1c00c-e9db-4e87-9488-87655dbbb885.json
new file mode 100644
index 0000000..478e937
--- /dev/null
+++ b/test/data/enm/study-XLSX-d3a1c00c-e9db-4e87-9488-87655dbbb885.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-d3a1c00c-e9db-4e87-9488-87655dbbb885",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-945d75a3-50b7-3655-8979-376d39096378"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "031",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "031",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 436.79
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 23662.55
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 929.03
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d4f527c0-325e-4eec-bf61-04093f1cc5d5.json b/test/data/enm/study-XLSX-d4f527c0-325e-4eec-bf61-04093f1cc5d5.json
new file mode 100644
index 0000000..faf3af8
--- /dev/null
+++ b/test/data/enm/study-XLSX-d4f527c0-325e-4eec-bf61-04093f1cc5d5.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-d4f527c0-325e-4eec-bf61-04093f1cc5d5",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "160",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "160",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 10
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 18
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 504.5
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d5aff4d1-abdf-4f9c-8c37-cb64aae72229.json b/test/data/enm/study-XLSX-d5aff4d1-abdf-4f9c-8c37-cb64aae72229.json
new file mode 100644
index 0000000..a7e8641
--- /dev/null
+++ b/test/data/enm/study-XLSX-d5aff4d1-abdf-4f9c-8c37-cb64aae72229.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-d5aff4d1-abdf-4f9c-8c37-cb64aae72229",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "115",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "115",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 255.17
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 420.566
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 6.616
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d5dd4e79-8943-47c2-92ba-329b306d0896.json b/test/data/enm/study-XLSX-d5dd4e79-8943-47c2-92ba-329b306d0896.json
new file mode 100644
index 0000000..99c24a3
--- /dev/null
+++ b/test/data/enm/study-XLSX-d5dd4e79-8943-47c2-92ba-329b306d0896.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-d5dd4e79-8943-47c2-92ba-329b306d0896",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "028",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "028",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "m2/g",
+        "loValue": 3.7
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d619e752-f81e-4a88-94e0-f2d9ad2ecc86.json b/test/data/enm/study-XLSX-d619e752-f81e-4a88-94e0-f2d9ad2ecc86.json
new file mode 100644
index 0000000..2f8c0f9
--- /dev/null
+++ b/test/data/enm/study-XLSX-d619e752-f81e-4a88-94e0-f2d9ad2ecc86.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-d619e752-f81e-4a88-94e0-f2d9ad2ecc86",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d6285533-0204-3884-a3d8-1dffdcde6324"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "072",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0010001_SECTION",
+      "term": "http://purl.bioontology.org/ontology/bao#BAO_0010001",
+      "title": "BAO_0010001 ATP Assay"
+    },
+    "endpoint": "072",
+    "guideline": [
+      "ATP"
+    ]
+  },
+  "parameters": {
+    "Cell line": "U-87 MG",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 2,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 53.613
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 175.758
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.886
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-58c9f610-0fef-3009-8112-6ea05d863644.json b/test/data/enm/study-XLSX-d7614e23-9ea3-4475-ac89-6a75c3626a3a.json
index 861bbdd..861bbdd 100644
--- a/test/data/enm/study-XLSX-58c9f610-0fef-3009-8112-6ea05d863644.json
+++ b/test/data/enm/study-XLSX-d7614e23-9ea3-4475-ac89-6a75c3626a3a.json
diff --git a/test/data/enm/study-XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522.json b/test/data/enm/study-XLSX-d76ebf13-274d-4bc2-930f-406c9486be2e.json
index 58e8ac7..58e8ac7 100644
--- a/test/data/enm/study-XLSX-ce148a7f-3da2-3fb8-9245-161eb6747522.json
+++ b/test/data/enm/study-XLSX-d76ebf13-274d-4bc2-930f-406c9486be2e.json
diff --git a/test/data/enm/study-XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f.json b/test/data/enm/study-XLSX-d8feb7dd-549e-4f70-a119-5d76055e0172.json
index e218953..e218953 100644
--- a/test/data/enm/study-XLSX-dce22e5a-6ef2-3fd1-b1c8-9ebdb7bd5d2f.json
+++ b/test/data/enm/study-XLSX-d8feb7dd-549e-4f70-a119-5d76055e0172.json
diff --git a/test/data/enm/study-XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71.json b/test/data/enm/study-XLSX-dae320b7-859e-4d08-9c88-fb29d764f2f1.json
index c4367fa..c4367fa 100644
--- a/test/data/enm/study-XLSX-295d65e6-0d6e-3987-a67f-e4482fa28c71.json
+++ b/test/data/enm/study-XLSX-dae320b7-859e-4d08-9c88-fb29d764f2f1.json
diff --git a/test/data/enm/study-XLSX-dbac069b-2183-4321-b2f7-cd528eeb7beb.json b/test/data/enm/study-XLSX-dbac069b-2183-4321-b2f7-cd528eeb7beb.json
new file mode 100644
index 0000000..b181dec
--- /dev/null
+++ b/test/data/enm/study-XLSX-dbac069b-2183-4321-b2f7-cd528eeb7beb.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-dbac069b-2183-4321-b2f7-cd528eeb7beb",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "081",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "081",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "oblong"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 2.4
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff.json b/test/data/enm/study-XLSX-dbc66ad9-b950-431f-8e0b-e8a185bcfc5a.json
index 81f4afe..81f4afe 100644
--- a/test/data/enm/study-XLSX-53ac37fa-9e10-3f71-9d74-bc47f28880ff.json
+++ b/test/data/enm/study-XLSX-dbc66ad9-b950-431f-8e0b-e8a185bcfc5a.json
diff --git a/test/data/enm/study-XLSX-dee1d5a1-8ad8-4eaf-816d-7e87f3a657e9.json b/test/data/enm/study-XLSX-dee1d5a1-8ad8-4eaf-816d-7e87f3a657e9.json
new file mode 100644
index 0000000..519578a
--- /dev/null
+++ b/test/data/enm/study-XLSX-dee1d5a1-8ad8-4eaf-816d-7e87f3a657e9.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-dee1d5a1-8ad8-4eaf-816d-7e87f3a657e9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "005",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "005",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 44.545
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 154.891
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 4.414
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412.json b/test/data/enm/study-XLSX-df2adeb2-8c2b-431b-8efc-c9da4985a976.json
index c13a3db..c13a3db 100644
--- a/test/data/enm/study-XLSX-de76fc02-ef1f-310a-b61f-6aab5b586412.json
+++ b/test/data/enm/study-XLSX-df2adeb2-8c2b-431b-8efc-c9da4985a976.json
diff --git a/test/data/enm/study-XLSX-df2b7cc9-9440-4450-93b4-0b01cfbe0470.json b/test/data/enm/study-XLSX-df2b7cc9-9440-4450-93b4-0b01cfbe0470.json
new file mode 100644
index 0000000..5678a23
--- /dev/null
+++ b/test/data/enm/study-XLSX-df2b7cc9-9440-4450-93b4-0b01cfbe0470.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-df2b7cc9-9440-4450-93b4-0b01cfbe0470",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-498d791a-4c0f-3eab-bb2b-bd554637d9af"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "135",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "135",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 8
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 12
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 532
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-df2f83d5-775f-4dd1-86f2-221bc53497ca.json b/test/data/enm/study-XLSX-df2f83d5-775f-4dd1-86f2-221bc53497ca.json
new file mode 100644
index 0000000..21bf5ba
--- /dev/null
+++ b/test/data/enm/study-XLSX-df2f83d5-775f-4dd1-86f2-221bc53497ca.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-df2f83d5-775f-4dd1-86f2-221bc53497ca",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-945d75a3-50b7-3655-8979-376d39096378"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "029",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "029",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1025.671
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 24233.231
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 928.302
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-df6f1803-e1f2-46a5-8ad2-04aa026cb430.json b/test/data/enm/study-XLSX-df6f1803-e1f2-46a5-8ad2-04aa026cb430.json
new file mode 100644
index 0000000..49203b3
--- /dev/null
+++ b/test/data/enm/study-XLSX-df6f1803-e1f2-46a5-8ad2-04aa026cb430.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-df6f1803-e1f2-46a5-8ad2-04aa026cb430",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "155",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "155",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Irregular euhedral"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-75ca4d9f-546f-3d7d-a24e-d0d54809cbb3.json b/test/data/enm/study-XLSX-e0924b3c-5b20-4c17-b35b-9d1487aaf32c.json
index 87b1ed9..87b1ed9 100644
--- a/test/data/enm/study-XLSX-75ca4d9f-546f-3d7d-a24e-d0d54809cbb3.json
+++ b/test/data/enm/study-XLSX-e0924b3c-5b20-4c17-b35b-9d1487aaf32c.json
diff --git a/test/data/enm/study-XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930.json b/test/data/enm/study-XLSX-e12f73c6-c0a0-43b6-b377-b8e4dcf5616c.json
index 034df7a..034df7a 100644
--- a/test/data/enm/study-XLSX-95020ff3-17ee-3889-8a9f-f2555dc4a930.json
+++ b/test/data/enm/study-XLSX-e12f73c6-c0a0-43b6-b377-b8e4dcf5616c.json
diff --git a/test/data/enm/study-XLSX-e1efd876-a5b6-47d6-9039-04f1b86cac77.json b/test/data/enm/study-XLSX-e1efd876-a5b6-47d6-9039-04f1b86cac77.json
new file mode 100644
index 0000000..966bae9
--- /dev/null
+++ b/test/data/enm/study-XLSX-e1efd876-a5b6-47d6-9039-04f1b86cac77.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-e1efd876-a5b6-47d6-9039-04f1b86cac77",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5cd11301-7cf1-3402-aaf8-853e5ed8ccde"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "177",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "177",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Mainly 2 euhedral morphologies: aspect ratio 1(20–250 nm) and aspect ratio 2:8.5 (10–450 nm)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.68
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8.json b/test/data/enm/study-XLSX-e25fcdda-3935-448e-a5bf-31932f003ed4.json
index 38e4478..38e4478 100644
--- a/test/data/enm/study-XLSX-5d07b463-d3a8-35b1-826e-076f9f2328c8.json
+++ b/test/data/enm/study-XLSX-e25fcdda-3935-448e-a5bf-31932f003ed4.json
diff --git a/test/data/enm/study-XLSX-56c58705-05c6-304f-bb42-a3a328e06319.json b/test/data/enm/study-XLSX-e2d1e541-119d-48fd-811e-ef18a2f4611c.json
index e998db8..e998db8 100644
--- a/test/data/enm/study-XLSX-56c58705-05c6-304f-bb42-a3a328e06319.json
+++ b/test/data/enm/study-XLSX-e2d1e541-119d-48fd-811e-ef18a2f4611c.json
diff --git a/test/data/enm/study-XLSX-e39305cf-0a69-4240-9f35-d79a2d429e40.json b/test/data/enm/study-XLSX-e39305cf-0a69-4240-9f35-d79a2d429e40.json
new file mode 100644
index 0000000..c4b48e8
--- /dev/null
+++ b/test/data/enm/study-XLSX-e39305cf-0a69-4240-9f35-d79a2d429e40.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-e39305cf-0a69-4240-9f35-d79a2d429e40",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-251091e3-55d1-36b3-854c-d1933ec46461"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "027",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "027",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Vortexing"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.1
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 38.1
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 144
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5.json b/test/data/enm/study-XLSX-e3b26a17-3886-4b42-9f8b-51a75c92d549.json
index a1026a8..a1026a8 100644
--- a/test/data/enm/study-XLSX-36cbb933-ec3a-3d8b-b80f-0d5b6e76edc5.json
+++ b/test/data/enm/study-XLSX-e3b26a17-3886-4b42-9f8b-51a75c92d549.json
diff --git a/test/data/enm/study-XLSX-e3b53d4c-5816-4555-93a5-638024e7e6cc.json b/test/data/enm/study-XLSX-e3b53d4c-5816-4555-93a5-638024e7e6cc.json
new file mode 100644
index 0000000..c1f3ce0
--- /dev/null
+++ b/test/data/enm/study-XLSX-e3b53d4c-5816-4555-93a5-638024e7e6cc.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-e3b53d4c-5816-4555-93a5-638024e7e6cc",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "038",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "038",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 11
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 1372
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 191
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13.json b/test/data/enm/study-XLSX-e4d153a8-15a4-473b-a649-a8f173015876.json
index b89f2e1..b89f2e1 100644
--- a/test/data/enm/study-XLSX-d4f2714a-a7f6-305a-af41-18d8129fef13.json
+++ b/test/data/enm/study-XLSX-e4d153a8-15a4-473b-a649-a8f173015876.json
diff --git a/test/data/enm/study-XLSX-e4ec31d9-12a2-492c-8912-6a1caf42d220.json b/test/data/enm/study-XLSX-e4ec31d9-12a2-492c-8912-6a1caf42d220.json
new file mode 100644
index 0000000..86a59bf
--- /dev/null
+++ b/test/data/enm/study-XLSX-e4ec31d9-12a2-492c-8912-6a1caf42d220.json
@@ -0,0 +1,72 @@
+{
+  "uuid": "XLSX-e4ec31d9-12a2-492c-8912-6a1caf42d220",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "176",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "PC_GRANULOMETRY_SECTION",
+      "term": "http://purl.obolibrary.org/obo/CHMO_0002119",
+      "title": "4.5 Particle size distribution (Granulometry)"
+    },
+    "endpoint": "176",
+    "guideline": [
+      "TEM"
+    ]
+  },
+  "parameters": {
+    "Dispersion protocol": "Tip"
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "PRIMARY SIZE 1ST DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 101
+      }
+    },
+    {
+      "endpoint": "PRIMARY SIZE 2ND DIMENSION",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 170
+      }
+    },
+    {
+      "endpoint": "SIZE IN SITU",
+      "conditions": {
+      },
+      "result": {
+        "unit": "nm",
+        "loValue": 285
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2.json b/test/data/enm/study-XLSX-e56d0702-5753-4c06-91bc-637bf5355ce3.json
index 181bf70..181bf70 100644
--- a/test/data/enm/study-XLSX-38666e26-8f8e-37a4-b97c-728a1e5aa0f2.json
+++ b/test/data/enm/study-XLSX-e56d0702-5753-4c06-91bc-637bf5355ce3.json
diff --git a/test/data/enm/study-XLSX-e70a0515-81c5-49ef-b2e4-27897942675a.json b/test/data/enm/study-XLSX-e70a0515-81c5-49ef-b2e4-27897942675a.json
new file mode 100644
index 0000000..d9321a1
--- /dev/null
+++ b/test/data/enm/study-XLSX-e70a0515-81c5-49ef-b2e4-27897942675a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-e70a0515-81c5-49ef-b2e4-27897942675a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "147",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "147",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 928.524
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1222.908
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 11.775
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-498d791a-4c0f-3eab-bb2b-bd554637d9af.json b/test/data/enm/study-XLSX-e7aa3d69-db5c-4a6f-b562-22643a5eaae8.json
index f720af4..f720af4 100644
--- a/test/data/enm/study-XLSX-498d791a-4c0f-3eab-bb2b-bd554637d9af.json
+++ b/test/data/enm/study-XLSX-e7aa3d69-db5c-4a6f-b562-22643a5eaae8.json
diff --git a/test/data/enm/study-XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6.json b/test/data/enm/study-XLSX-e7dab684-dd3d-4054-a343-31706a073bf6.json
index 93a877e..93a877e 100644
--- a/test/data/enm/study-XLSX-92788191-34d9-39b4-aa9c-503da51fc1a6.json
+++ b/test/data/enm/study-XLSX-e7dab684-dd3d-4054-a343-31706a073bf6.json
diff --git a/test/data/enm/study-XLSX-e85460d4-1d0a-4cdf-aea6-7025bca3a403.json b/test/data/enm/study-XLSX-e85460d4-1d0a-4cdf-aea6-7025bca3a403.json
new file mode 100644
index 0000000..72b6721
--- /dev/null
+++ b/test/data/enm/study-XLSX-e85460d4-1d0a-4cdf-aea6-7025bca3a403.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-e85460d4-1d0a-4cdf-aea6-7025bca3a403",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "127",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "127",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Stirring",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 76.347
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 126.343
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3.json b/test/data/enm/study-XLSX-e899dba3-4875-4fb2-b752-6792181138b8.json
index c07cce6..c07cce6 100644
--- a/test/data/enm/study-XLSX-d7934c3e-9eac-34bc-8c60-4cf0c46e92a3.json
+++ b/test/data/enm/study-XLSX-e899dba3-4875-4fb2-b752-6792181138b8.json
diff --git a/test/data/enm/study-XLSX-e8f808ee-cc98-4134-93e3-88d313d6ac48.json b/test/data/enm/study-XLSX-e8f808ee-cc98-4134-93e3-88d313d6ac48.json
new file mode 100644
index 0000000..cc53359
--- /dev/null
+++ b/test/data/enm/study-XLSX-e8f808ee-cc98-4134-93e3-88d313d6ac48.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-e8f808ee-cc98-4134-93e3-88d313d6ac48",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "018",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "018",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Heterogeneous (round, triangular or trapezium-like)"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.1
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-251091e3-55d1-36b3-854c-d1933ec46461.json b/test/data/enm/study-XLSX-e9bee75e-8347-4f49-ab8d-f76ca4a4369c.json
index d4165b8..d4165b8 100644
--- a/test/data/enm/study-XLSX-251091e3-55d1-36b3-854c-d1933ec46461.json
+++ b/test/data/enm/study-XLSX-e9bee75e-8347-4f49-ab8d-f76ca4a4369c.json
diff --git a/test/data/enm/study-XLSX-ea251475-184a-4090-982e-4923799e3041.json b/test/data/enm/study-XLSX-ea251475-184a-4090-982e-4923799e3041.json
new file mode 100644
index 0000000..d4a33b3
--- /dev/null
+++ b/test/data/enm/study-XLSX-ea251475-184a-4090-982e-4923799e3041.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ea251475-184a-4090-982e-4923799e3041",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "017",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "017",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1300.946
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1655.991
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 14.202
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-5a273d77-e518-3523-b377-c06f08182be1.json b/test/data/enm/study-XLSX-ea63f4ea-7a65-4ecb-b51d-20ce01e6fe53.json
index 59cef1a..59cef1a 100644
--- a/test/data/enm/study-XLSX-5a273d77-e518-3523-b377-c06f08182be1.json
+++ b/test/data/enm/study-XLSX-ea63f4ea-7a65-4ecb-b51d-20ce01e6fe53.json
diff --git a/test/data/enm/study-XLSX-ec0d62b4-2359-45e0-a95e-11244769fae9.json b/test/data/enm/study-XLSX-ec0d62b4-2359-45e0-a95e-11244769fae9.json
new file mode 100644
index 0000000..9ad8700
--- /dev/null
+++ b/test/data/enm/study-XLSX-ec0d62b4-2359-45e0-a95e-11244769fae9.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ec0d62b4-2359-45e0-a95e-11244769fae9",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-2ca46b71-491d-3e73-9b4c-3fb885705274"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "157",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "157",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NCI-H292",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 446.864
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 645.017
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 7.926
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4.json b/test/data/enm/study-XLSX-ece2773f-4857-423d-8c0c-ad76ae1017f7.json
index 7d2acb2..7d2acb2 100644
--- a/test/data/enm/study-XLSX-9eb0db98-07c0-37fb-9fc3-7126d72252c4.json
+++ b/test/data/enm/study-XLSX-ece2773f-4857-423d-8c0c-ad76ae1017f7.json
diff --git a/test/data/enm/study-XLSX-ee08efeb-a88d-46ec-95df-27b6ed5a4039.json b/test/data/enm/study-XLSX-ee08efeb-a88d-46ec-95df-27b6ed5a4039.json
new file mode 100644
index 0000000..d24c928
--- /dev/null
+++ b/test/data/enm/study-XLSX-ee08efeb-a88d-46ec-95df-27b6ed5a4039.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ee08efeb-a88d-46ec-95df-27b6ed5a4039",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "112",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "NPO_1709_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo#NPO_1709",
+      "title": "NPO_1709 LDH Release Assay"
+    },
+    "endpoint": "112",
+    "guideline": [
+      "LDH"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 235.704
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 328.548
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.714
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab.json b/test/data/enm/study-XLSX-ee2950ad-e9ac-487f-990d-3846eaa6b868.json
index ef4e853..ef4e853 100644
--- a/test/data/enm/study-XLSX-0bfa2e41-c6b6-3cbf-8a1e-73bf006768ab.json
+++ b/test/data/enm/study-XLSX-ee2950ad-e9ac-487f-990d-3846eaa6b868.json
diff --git a/test/data/enm/study-XLSX-ee3baded-7a60-49e2-b637-3fb4c2dc8bd7.json b/test/data/enm/study-XLSX-ee3baded-7a60-49e2-b637-3fb4c2dc8bd7.json
new file mode 100644
index 0000000..5f17cd7
--- /dev/null
+++ b/test/data/enm/study-XLSX-ee3baded-7a60-49e2-b637-3fb4c2dc8bd7.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-ee3baded-7a60-49e2-b637-3fb4c2dc8bd7",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "018",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "018",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "THP-1 macrophage",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 64.046
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 90.535
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 1.06
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9.json b/test/data/enm/study-XLSX-ef088215-e743-4bfd-a737-4a9261aac339.json
index aa4105b..aa4105b 100644
--- a/test/data/enm/study-XLSX-f94651ce-fd32-3306-8f89-32ffdf533be9.json
+++ b/test/data/enm/study-XLSX-ef088215-e743-4bfd-a737-4a9261aac339.json
diff --git a/test/data/enm/study-XLSX-f0db0761-938a-43ac-b04d-612a09131d63.json b/test/data/enm/study-XLSX-f0db0761-938a-43ac-b04d-612a09131d63.json
new file mode 100644
index 0000000..7fa219c
--- /dev/null
+++ b/test/data/enm/study-XLSX-f0db0761-938a-43ac-b04d-612a09131d63.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-f0db0761-938a-43ac-b04d-612a09131d63",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "014",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "014",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Bath",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 59.445
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 297.41
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 9.519
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-d6285533-0204-3884-a3d8-1dffdcde6324.json b/test/data/enm/study-XLSX-f1aa6695-5545-4b13-95fd-614629bfe92b.json
index 281ed2c..281ed2c 100644
--- a/test/data/enm/study-XLSX-d6285533-0204-3884-a3d8-1dffdcde6324.json
+++ b/test/data/enm/study-XLSX-f1aa6695-5545-4b13-95fd-614629bfe92b.json
diff --git a/test/data/enm/study-XLSX-f1d098ec-d929-4410-a1af-f720036f834d.json b/test/data/enm/study-XLSX-f1d098ec-d929-4410-a1af-f720036f834d.json
new file mode 100644
index 0000000..af34874
--- /dev/null
+++ b/test/data/enm/study-XLSX-f1d098ec-d929-4410-a1af-f720036f834d.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-f1d098ec-d929-4410-a1af-f720036f834d",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "033",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "033",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 390.72
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3988.011
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 143.892
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-f2524359-9748-4797-95f8-9064b832b153.json b/test/data/enm/study-XLSX-f2524359-9748-4797-95f8-9064b832b153.json
new file mode 100644
index 0000000..04188e2
--- /dev/null
+++ b/test/data/enm/study-XLSX-f2524359-9748-4797-95f8-9064b832b153.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-f2524359-9748-4797-95f8-9064b832b153",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "113",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "SPECIFIC_SURFACE_AREA_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_1235",
+      "title": "4.28 Nanomaterial specific surface area"
+    },
+    "endpoint": "113",
+    "guideline": [
+      "SPECIFIC SURFACE AREA"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "SPECIFIC_SURFACE_AREA",
+      "conditions": {
+      },
+      "result": {
+        "unit": "(m2/g)",
+        "loValue": 189.16
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8.json b/test/data/enm/study-XLSX-f3369e08-9403-44dd-b930-7e6ad8debaa8.json
index c11d851..c11d851 100644
--- a/test/data/enm/study-XLSX-a44564c5-1458-3e3b-aca7-d63f5221d2a8.json
+++ b/test/data/enm/study-XLSX-f3369e08-9403-44dd-b930-7e6ad8debaa8.json
diff --git a/test/data/enm/study-XLSX-2ca46b71-491d-3e73-9b4c-3fb885705274.json b/test/data/enm/study-XLSX-f34d9633-f73f-454a-91ea-ef756cb9ade4.json
index 026cfa6..026cfa6 100644
--- a/test/data/enm/study-XLSX-2ca46b71-491d-3e73-9b4c-3fb885705274.json
+++ b/test/data/enm/study-XLSX-f34d9633-f73f-454a-91ea-ef756cb9ade4.json
diff --git a/test/data/enm/study-XLSX-f39a60aa-b599-4d09-b344-2b6480f14720.json b/test/data/enm/study-XLSX-f39a60aa-b599-4d09-b344-2b6480f14720.json
new file mode 100644
index 0000000..1d9b9e7
--- /dev/null
+++ b/test/data/enm/study-XLSX-f39a60aa-b599-4d09-b344-2b6480f14720.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-f39a60aa-b599-4d09-b344-2b6480f14720",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-190fb54d-9b65-3d58-b65e-b3aae9a1f182"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "154",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "154",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "Irregular euhedral"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.36
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-f40c9a22-a2d2-410b-99d2-fec1b44bcf0a.json b/test/data/enm/study-XLSX-f40c9a22-a2d2-410b-99d2-fec1b44bcf0a.json
new file mode 100644
index 0000000..fc3f5f7
--- /dev/null
+++ b/test/data/enm/study-XLSX-f40c9a22-a2d2-410b-99d2-fec1b44bcf0a.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-f40c9a22-a2d2-410b-99d2-fec1b44bcf0a",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "106",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "106",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Vortexing",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 76.229
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 143.961
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.709
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f.json b/test/data/enm/study-XLSX-f4aabeaa-a7f4-4dfe-ab3b-f554a313d175.json
index 09fc445..09fc445 100644
--- a/test/data/enm/study-XLSX-3dac4f9c-8c47-3085-9781-e70583adb12f.json
+++ b/test/data/enm/study-XLSX-f4aabeaa-a7f4-4dfe-ab3b-f554a313d175.json
diff --git a/test/data/enm/study-XLSX-f4ba2094-beba-4eb3-9a75-1d0955c3af17.json b/test/data/enm/study-XLSX-f4ba2094-beba-4eb3-9a75-1d0955c3af17.json
new file mode 100644
index 0000000..988a222
--- /dev/null
+++ b/test/data/enm/study-XLSX-f4ba2094-beba-4eb3-9a75-1d0955c3af17.json
@@ -0,0 +1,53 @@
+{
+  "uuid": "XLSX-f4ba2094-beba-4eb3-9a75-1d0955c3af17",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-5e44448d-216f-3b91-891a-a7e1de030a13"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "186",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "P-CHEM",
+    "category": {
+      "code": "ASPECT_RATIO_SHAPE_SECTION",
+      "term": "http://purl.bioontology.org/ontology/npo/NPO_274",
+      "title": "4.27 Nanomaterial aspect ratio/shape"
+    },
+    "endpoint": "186",
+    "guideline": [
+      "Shape"
+    ]
+  },
+  "parameters": {
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": "equi-axed and rounded, or slightly elongated"
+  },
+  "effects": [
+    {
+      "endpoint": "ASPECT RATIO",
+      "conditions": {
+      },
+      "result": {
+        "unit": null,
+        "loValue": 1.6
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2.json b/test/data/enm/study-XLSX-f5800c94-652b-419f-b812-9446748af04c.json
index c5d6e67..c5d6e67 100644
--- a/test/data/enm/study-XLSX-2acfa382-5109-3e49-9fd4-ef8d139be4b2.json
+++ b/test/data/enm/study-XLSX-f5800c94-652b-419f-b812-9446748af04c.json
diff --git a/test/data/enm/study-XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16.json b/test/data/enm/study-XLSX-f596b79d-58bd-4c59-8255-cb51aa2ffbec.json
index 3670f8e..3670f8e 100644
--- a/test/data/enm/study-XLSX-d3a9ce39-6c15-3e4b-a5ce-5ea23e45ff16.json
+++ b/test/data/enm/study-XLSX-f596b79d-58bd-4c59-8255-cb51aa2ffbec.json
diff --git a/test/data/enm/study-XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb.json b/test/data/enm/study-XLSX-f5ba28f1-d236-415d-af07-6ffe7b15585e.json
index 026de90..026de90 100644
--- a/test/data/enm/study-XLSX-adf890e9-3623-3a0e-b601-11f8e5e2f3cb.json
+++ b/test/data/enm/study-XLSX-f5ba28f1-d236-415d-af07-6ffe7b15585e.json
diff --git a/test/data/enm/study-XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b.json b/test/data/enm/study-XLSX-f61dd9c6-563c-40a5-8fcc-52c9f4ad7590.json
index db56049..db56049 100644
--- a/test/data/enm/study-XLSX-3ff81e94-3d5d-3e58-a761-b0bd7c94de3b.json
+++ b/test/data/enm/study-XLSX-f61dd9c6-563c-40a5-8fcc-52c9f4ad7590.json
diff --git a/test/data/enm/study-XLSX-945d75a3-50b7-3655-8979-376d39096378.json b/test/data/enm/study-XLSX-f680f3e9-24d8-482c-ac04-0ee2884348a4.json
index 778cfee..778cfee 100644
--- a/test/data/enm/study-XLSX-945d75a3-50b7-3655-8979-376d39096378.json
+++ b/test/data/enm/study-XLSX-f680f3e9-24d8-482c-ac04-0ee2884348a4.json
diff --git a/test/data/enm/study-XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b.json b/test/data/enm/study-XLSX-f752a9e6-816d-4d83-8211-55fef5b0d24e.json
index a30e485..a30e485 100644
--- a/test/data/enm/study-XLSX-0d71a921-0e8d-3f25-8deb-20478b7e884b.json
+++ b/test/data/enm/study-XLSX-f752a9e6-816d-4d83-8211-55fef5b0d24e.json
diff --git a/test/data/enm/study-XLSX-190fb54d-9b65-3d58-b65e-b3aae9a1f182.json b/test/data/enm/study-XLSX-f861ae7e-cfc8-4406-b8c1-2bab45c9be8f.json
index 01c8a62..01c8a62 100644
--- a/test/data/enm/study-XLSX-190fb54d-9b65-3d58-b65e-b3aae9a1f182.json
+++ b/test/data/enm/study-XLSX-f861ae7e-cfc8-4406-b8c1-2bab45c9be8f.json
diff --git a/test/data/enm/study-XLSX-aacdfad8-f3d3-39f2-b662-0d8084e283ef.json b/test/data/enm/study-XLSX-f9dc91ff-8f1d-4f73-962d-30cc1fe31699.json
index 7a37e8c..7a37e8c 100644
--- a/test/data/enm/study-XLSX-aacdfad8-f3d3-39f2-b662-0d8084e283ef.json
+++ b/test/data/enm/study-XLSX-f9dc91ff-8f1d-4f73-962d-30cc1fe31699.json
diff --git a/test/data/enm/study-XLSX-7e2b0550-595b-3427-b6f3-b84211a5c402.json b/test/data/enm/study-XLSX-f9df1a98-6f38-473a-a70f-80dcdf8fa5be.json
index 6f74bb6..6f74bb6 100644
--- a/test/data/enm/study-XLSX-7e2b0550-595b-3427-b6f3-b84211a5c402.json
+++ b/test/data/enm/study-XLSX-f9df1a98-6f38-473a-a70f-80dcdf8fa5be.json
diff --git a/test/data/enm/study-XLSX-ffd24485-3b05-3afe-b6ff-547800723f71.json b/test/data/enm/study-XLSX-fa433d53-df49-4420-854a-fd59b58d39c5.json
index b72311b..b72311b 100644
--- a/test/data/enm/study-XLSX-ffd24485-3b05-3afe-b6ff-547800723f71.json
+++ b/test/data/enm/study-XLSX-fa433d53-df49-4420-854a-fd59b58d39c5.json
diff --git a/test/data/enm/study-XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90.json b/test/data/enm/study-XLSX-fb1ee400-bfaa-4ac1-bd6f-801e8ead9842.json
index c9a8046..c9a8046 100644
--- a/test/data/enm/study-XLSX-673c8355-a823-3bf2-a319-0d8af43e4d90.json
+++ b/test/data/enm/study-XLSX-fb1ee400-bfaa-4ac1-bd6f-801e8ead9842.json
diff --git a/test/data/enm/study-XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65.json b/test/data/enm/study-XLSX-fd583dba-17af-4d5d-b33b-99bc223cacb0.json
index d7e81dd..d7e81dd 100644
--- a/test/data/enm/study-XLSX-9f84408a-4414-33c9-a0f2-53bd19cf2d65.json
+++ b/test/data/enm/study-XLSX-fd583dba-17af-4d5d-b33b-99bc223cacb0.json
diff --git a/test/data/enm/study-XLSX-7677801c-4895-3ffd-807a-832c589341df.json b/test/data/enm/study-XLSX-fd6f9dd1-b20f-45bc-95e1-e9aa08913cd1.json
index 58ba7a9..58ba7a9 100644
--- a/test/data/enm/study-XLSX-7677801c-4895-3ffd-807a-832c589341df.json
+++ b/test/data/enm/study-XLSX-fd6f9dd1-b20f-45bc-95e1-e9aa08913cd1.json
diff --git a/test/data/enm/study-XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0.json b/test/data/enm/study-XLSX-fdcbf34a-59a7-4533-beab-0a38696cd639.json
index b421466..b421466 100644
--- a/test/data/enm/study-XLSX-7394378e-b717-3418-a3f7-27db3cbbd8d0.json
+++ b/test/data/enm/study-XLSX-fdcbf34a-59a7-4533-beab-0a38696cd639.json
diff --git a/test/data/enm/study-XLSX-5e44448d-216f-3b91-891a-a7e1de030a13.json b/test/data/enm/study-XLSX-fe6bb3ce-f1ea-4e4f-a781-9c4b439e5887.json
index 0cecd13..0cecd13 100644
--- a/test/data/enm/study-XLSX-5e44448d-216f-3b91-891a-a7e1de030a13.json
+++ b/test/data/enm/study-XLSX-fe6bb3ce-f1ea-4e4f-a781-9c4b439e5887.json
diff --git a/test/data/enm/study-XLSX-fe7ed13c-9071-4a3d-88b6-1b105fd5ca70.json b/test/data/enm/study-XLSX-fe7ed13c-9071-4a3d-88b6-1b105fd5ca70.json
new file mode 100644
index 0000000..44a62b7
--- /dev/null
+++ b/test/data/enm/study-XLSX-fe7ed13c-9071-4a3d-88b6-1b105fd5ca70.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-fe7ed13c-9071-4a3d-88b6-1b105fd5ca70",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "172",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "172",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "A549",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 16.938
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 25.747
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.352
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-fe85de6c-5b0e-4ea1-8eeb-72d706db95a8.json b/test/data/enm/study-XLSX-fe85de6c-5b0e-4ea1-8eeb-72d706db95a8.json
new file mode 100644
index 0000000..037effb
--- /dev/null
+++ b/test/data/enm/study-XLSX-fe85de6c-5b0e-4ea1-8eeb-72d706db95a8.json
@@ -0,0 +1,75 @@
+{
+  "uuid": "XLSX-fe85de6c-5b0e-4ea1-8eeb-72d706db95a8",
+  "owner": {
+    "substance": {
+      "uuid": "XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7"
+    },
+    "company": {
+      "uuid": "XLSX-c4568d50-2e06-3173-95d2-01adb74e6632",
+      "name": "MODENA"
+    }
+  },
+  "citation": {
+    "title": "174",
+    "year": "2015",
+    "owner": "MODENA"
+  },
+  "protocol": {
+    "topcategory": "TOX",
+    "category": {
+      "code": "BAO_0003009_SECTION",
+      "term": "http://purl.obolibrary.org/obo/BAO_0003009",
+      "title": "BAO_0003009 Cell Viability Assay"
+    },
+    "endpoint": "174",
+    "guideline": [
+      "WST-1"
+    ]
+  },
+  "parameters": {
+    "Cell line": "NRK-52E",
+    "Dispersion protocol": "Tip",
+    "Exposure duration,h": 24,
+    "Serum concentration,%": 0.1
+  },
+  "reliability": {
+    "r_isRobustStudy": "false",
+    "r_isUsedforClassification": "false",
+    "r_isUsedforMSDS": "false",
+    "r_purposeFlag": null,
+    "r_studyResultType": "experimental result",
+    "r_value": null
+  },
+  "interpretation": {
+    "result": null
+  },
+  "effects": [
+    {
+      "endpoint": "EC25",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 2.322
+      }
+    },
+    {
+      "endpoint": "EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 3.225
+      }
+    },
+    {
+      "endpoint": "SLOPE EC50",
+      "conditions": {
+      },
+      "result": {
+        "unit": "ug/ml",
+        "loValue": 0.036
+      }
+    }
+  ]
+}
diff --git a/test/data/enm/study-XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7.json b/test/data/enm/study-XLSX-fff71a73-f25e-4783-8660-bdb3aa52cd47.json
index f8cf42c..f8cf42c 100644
--- a/test/data/enm/study-XLSX-4ceef1bf-5f19-34e7-9d3d-51d65be297d7.json
+++ b/test/data/enm/study-XLSX-fff71a73-f25e-4783-8660-bdb3aa52cd47.json
diff --git a/test/data/loael_log10.csv b/test/data/loael_log10.csv
index 1a80243..1ec6097 100644
--- a/test/data/loael_log10.csv
+++ b/test/data/loael_log10.csv
@@ -1,4 +1,4 @@
-SMILES,""
+SMILES,-log10(LOAEL)
 ClC12C3C4(C(C1(Cl)Cl)(C1(C2(C3(Cl)C(C41Cl)(Cl)Cl)Cl)Cl)Cl)Cl,4.708504130518071
 ClC1=C(Cl)C2(C(C1(Cl)C1C2C2CC1C=C2)(Cl)Cl)Cl,4.562185669729957
 ClC1C2OC2C2C1C1(Cl)C(=C(C2(C1(Cl)Cl)Cl)Cl)Cl,4.1923634710095
diff --git a/test/nanoparticles.rb b/test/nanoparticles.rb
index 2082ec4..e1b8788 100644
--- a/test/nanoparticles.rb
+++ b/test/nanoparticles.rb
@@ -35,13 +35,22 @@ class NanoparticleTest  < MiniTest::Test
   def test_validate_model
     training_dataset = Dataset.find_or_create_by(:name => "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles")
     feature = Feature.find_or_create_by(name: "7.99 Toxicity (other) ICP-AES", category: "TOX", unit: "mL/ug(Mg)")
-    #model = Model::LazarRegression.create(feature, training_dataset, {:prediction_algorithm => "OpenTox::Algorithm::Regression.local_physchem_regression", :neighbor_algorithm => "nanoparticle_neighbors"})
     model = Model::LazarRegression.create(feature, training_dataset, {:prediction_algorithm => "OpenTox::Algorithm::Regression.local_weighted_average", :neighbor_algorithm => "nanoparticle_neighbors"})
     p model
     cv = RegressionCrossValidation.create model
     p cv
   end
 
+  def test_validate_pls_model
+    training_dataset = Dataset.find_or_create_by(:name => "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles")
+    feature = Feature.find_or_create_by(name: "7.99 Toxicity (other) ICP-AES", category: "TOX", unit: "mL/ug(Mg)")
+    model = Model::LazarRegression.create(feature, training_dataset, {:prediction_algorithm => "OpenTox::Algorithm::Regression.local_physchem_regression", :neighbor_algorithm => "nanoparticle_neighbors"})
+    #model = Model::LazarRegression.create(feature, training_dataset, {:prediction_algorithm => "OpenTox::Algorithm::Regression.local_weighted_average", :neighbor_algorithm => "nanoparticle_neighbors"})
+    p model
+    cv = RegressionCrossValidation.create model
+    p cv
+  end
+
   def test_export
     skip
     Dataset.all.each do |d|
diff --git a/test/regression.rb b/test/regression.rb
index c0782c4..799650f 100644
--- a/test/regression.rb
+++ b/test/regression.rb
@@ -17,7 +17,7 @@ class LazarRegressionTest < MiniTest::Test
     model.neighbor_algorithm_parameters[:type] = "MP2D"
     compound = Compound.from_smiles "CCCSCCSCC"
     prediction = model.predict compound
-    assert_equal 1.37, prediction[:value].round(2)
+    assert_equal 1.26, prediction[:value].round(2)
     assert_equal 3, prediction[:neighbors].size
   end
author	Christoph Helma <helma@in-silico.ch>	2016-05-12 15:23:01 +0200
committer	Christoph Helma <helma@in-silico.ch>	2016-05-12 15:23:01 +0200
commit	b8bb12c8a163c238d7d4387c1914e2100bb660df (patch)
tree	791d1524e2294d8a3a38658607a644d7576784ae /test
parent	937bfbaf058aea5973927cb3bf6b51028b312ed9 (diff)