A Methodology to Generate Longitudinally Updated Acute‐On‐Chronic Liver Failure Prognostication Scores From Electronic Health Record Data

Queries of electronic health record (EHR) data repositories allow for automated data collection. These techniques have not been used in hepatology due to the inability to capture hepatic encephalopathy (HE) grades, which are inputs for acute‐on‐chronic liver failure (ACLF) models. Here, we describe...

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Bibliographic Details
Published in:Hepatology communications 2021-06, Vol.5 (6), p.1069-1080
Main Authors: Ge, Jin, Najafi, Nader, Zhao, Wendi, Somsouk, Ma, Fang, Margaret, Lai, Jennifer C.
Format: Article
Language:English
Subjects:
Ambulatory care
Automation
Cardiovascular disease
Cognition & reasoning
Coma
Consciousness
Consortia
Documentation
Drug administration
Electronic health records
Etiology
Failure
Hemodialysis
Hepatitis
Hepatology
Laboratories
Liver diseases
Medical equipment
Nursing
Original
Patients
Queries
Structured Query Language-SQL
Transplants & implants
Ventilators
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Summary:Queries of electronic health record (EHR) data repositories allow for automated data collection. These techniques have not been used in hepatology due to the inability to capture hepatic encephalopathy (HE) grades, which are inputs for acute‐on‐chronic liver failure (ACLF) models. Here, we describe a methodology to use EHR data to calculate rolling ACLF scores. We examined 239 patient admissions with end‐stage liver disease from July 2014 to June 2019. We mapped EHR flowsheet data to determine HE grades and calculated two longitudinally updated ACLF scores. We validated HE grades and ACLF diagnoses by chart review and calculated sensitivity, specificity, and Cohen’s kappa. Of 239 patient admissions analyzed, 37% were women, 46% were non‐Hispanic white, median age was 60 years, and the median Model for End‐Stage Liver Disease–Na score at admission was 25. Of the 239, 7% were diagnosed with ACLF as defined by the North American Consortium for the Study of End‐Stage Liver Disease (NACSELD) diagnostic criteria at admission, 27% during the hospitalization, and 9% at discharge. Forty percent were diagnosed with ACLF by the European Association for the Study of the Liver– Chronic Liver Failure Consortium (CLIF‐C) diagnostic criteria at admission, 51% during the hospitalization, and 34% at discharge. From the chart review of 51 admissions, we found sensitivities and specificities for any HE (grades 1‐4) were 92%‐97% and 76%‐95%, respectively; for severe HE (grades 3‐4), sensitivities and specificities were 100% and 78%‐98%, respectively. Cohen’s kappa between flowsheet and chart review of HE grades ranged from 0.55 to 0.72. Sensitivities and specificities for NACSELD‐ACLF diagnoses were 75%‐100% and 96%‐100%, respectively; for CLIF‐C‐ACLF diagnoses, these were 91%‐100% and 96‐100%, respectively. We generated approximately 28 unique ACLF scores per patient per admission day. Conclusion: We developed an informatics‐based methodology to calculate longitudinally updated ACLF scores. This opens new analytic potentials, such as big data methods, to develop electronic phenotypes for patients with ACLF. Queries of electronic health record (EHR) data repositories allow for automated data collection. These techniques have not been utilized in hepatology due to previous inability to capture hepatic encephalopathy (HE) grades, which are inputs for acute‐on‐chronic liver failure (ACLF) models. We describe a methodology to utilizing EHR data to calculate rolling ACLF scores.
ISSN:2471-254X
2471-254X
DOI:10.1002/hep4.1690