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Diffstat (limited to 'test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json')
-rw-r--r-- | test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json | 169 |
1 files changed, 169 insertions, 0 deletions
diff --git a/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json b/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json new file mode 100644 index 0000000..f9beea1 --- /dev/null +++ b/test/data/enm/study-FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e.json @@ -0,0 +1,169 @@ +{ + "uuid": "FCSV-d096aebe-20b3-3d1e-84bf-ef4112f1c60e", + "owner": { + "substance": { + "uuid": "FCSV-6b272721-ed04-31bd-a4d4-cb6496140e85" + }, + "company": { + "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319", + "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv" + } + }, + "citation": { + "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv", + "year": "2014", + "owner": null + }, + "protocol": { + "topcategory": "P-CHEM", + "category": { + "code": "PC_GRANULOMETRY_SECTION", + "term": "http://purl.obolibrary.org/obo/CHMO_0002119", + "title": "4.5 Particle size distribution (Granulometry)" + }, + "endpoint": "DLS", + "guideline": [ + "doi: 10.1021/nn406018q" + ] + }, + "parameters": { + "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)", + "Type of method": "DLS", + "testmat_form": null + }, + "reliability": { + "r_isRobustStudy": "false", + "r_isUsedforClassification": "false", + "r_isUsedforMSDS": "false", + "r_purposeFlag": null, + "r_studyResultType": "experimental result", + "r_value": null + }, + "interpretation": { + "result": null + }, + "effects": [ + { + "endpoint": "Z-Average Hydrodynamic Diameter", + "conditions": { + "MEDIUM": " ", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loQualifier": "mean", + "loValue": 42.9, + "errQualifier": "sd", + "errorValue": 2.72 + } + }, + { + "endpoint": "Z-Average Hydrodynamic Diameter", + "conditions": { + "MEDIUM": "Human serum (Sigma #H4522)", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loQualifier": "mean", + "loValue": 50.05, + "errQualifier": "sd", + "errorValue": 2.99 + } + }, + { + "endpoint": "Volume Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": " ", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 41.71, + "errQualifier": "sd", + "errorValue": 1.12 + } + }, + { + "endpoint": "Volume Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": "Human serum (Sigma #H4522)", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 15.44, + "errQualifier": "sd", + "errorValue": 2.54 + } + }, + { + "endpoint": "Number Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": " ", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 44.73, + "errQualifier": "sd", + "errorValue": 2.03 + } + }, + { + "endpoint": "Number Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": "Human serum (Sigma #H4522)", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 13.15, + "errQualifier": "sd", + "errorValue": 2.5 + } + }, + { + "endpoint": "Intensity Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": " ", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 44.73, + "errQualifier": "sd", + "errorValue": 3.37 + } + }, + { + "endpoint": "Intensity Mean Hydrodynamic Diameter", + "conditions": { + "MEDIUM": "Human serum (Sigma #H4522)", + "PHRASEOTHER_PERCENTILE": null, + "Remark": null, + "SEQ_NUM": null + }, + "result": { + "unit": "nm", + "loValue": 65.41, + "errQualifier": "sd", + "errorValue": 3.19 + } + } + ] +} |