Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)

BACKGROUND: The gold standard for gathering data from electronic health records (EHR) has been manual data extraction; however, this requires vast resources and personnel. Automation of this process reduces resource burdens and expands research opportunities. OBJECTIVE: This study aimed to determine...

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Autores principales: Valencia Morales, Diana J., Bansal, Vikas, Heavner, Smith F., Castro, Janna C., Sharma, Mayank, Tekin, Aysun, Bogojevic, Marija, Zec, Simon, Sharma, Nikhil, Cartin-Ceba, Rodrigo, Nanchal, Rahul S., Sanghavi, Devang K., La Nou, Abigail T., Khan, Syed A., Belden, Katherine A., Chen, Jen-Ting, Melamed, Roman R., Sayed, Imran A., Reilkoff, Ronald A., Herasevich, Vitaly, Domecq Garces, Juan Pablo, Walkey, Allan J., Boman, Karen, Kumar, Vishakha K., Kashyap, Rahul
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10583598/
https://www.ncbi.nlm.nih.gov/pubmed/37859860
http://dx.doi.org/10.3389/fmed.2023.1089087
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author Valencia Morales, Diana J.
Bansal, Vikas
Heavner, Smith F.
Castro, Janna C.
Sharma, Mayank
Tekin, Aysun
Bogojevic, Marija
Zec, Simon
Sharma, Nikhil
Cartin-Ceba, Rodrigo
Nanchal, Rahul S.
Sanghavi, Devang K.
La Nou, Abigail T.
Khan, Syed A.
Belden, Katherine A.
Chen, Jen-Ting
Melamed, Roman R.
Sayed, Imran A.
Reilkoff, Ronald A.
Herasevich, Vitaly
Domecq Garces, Juan Pablo
Walkey, Allan J.
Boman, Karen
Kumar, Vishakha K.
Kashyap, Rahul
author_facet Valencia Morales, Diana J.
Bansal, Vikas
Heavner, Smith F.
Castro, Janna C.
Sharma, Mayank
Tekin, Aysun
Bogojevic, Marija
Zec, Simon
Sharma, Nikhil
Cartin-Ceba, Rodrigo
Nanchal, Rahul S.
Sanghavi, Devang K.
La Nou, Abigail T.
Khan, Syed A.
Belden, Katherine A.
Chen, Jen-Ting
Melamed, Roman R.
Sayed, Imran A.
Reilkoff, Ronald A.
Herasevich, Vitaly
Domecq Garces, Juan Pablo
Walkey, Allan J.
Boman, Karen
Kumar, Vishakha K.
Kashyap, Rahul
author_sort Valencia Morales, Diana J.
collection PubMed
description BACKGROUND: The gold standard for gathering data from electronic health records (EHR) has been manual data extraction; however, this requires vast resources and personnel. Automation of this process reduces resource burdens and expands research opportunities. OBJECTIVE: This study aimed to determine the feasibility and reliability of automated data extraction in a large registry of adult COVID-19 patients. MATERIALS AND METHODS: This observational study included data from sites participating in the SCCM Discovery VIRUS COVID-19 registry. Important demographic, comorbidity, and outcome variables were chosen for manual and automated extraction for the feasibility dataset. We quantified the degree of agreement with Cohen’s kappa statistics for categorical variables. The sensitivity and specificity were also assessed. Correlations for continuous variables were assessed with Pearson’s correlation coefficient and Bland–Altman plots. The strength of agreement was defined as almost perfect (0.81–1.00), substantial (0.61–0.80), and moderate (0.41–0.60) based on kappa statistics. Pearson correlations were classified as trivial (0.00–0.30), low (0.30–0.50), moderate (0.50–0.70), high (0.70–0.90), and extremely high (0.90–1.00). MEASUREMENTS AND MAIN RESULTS: The cohort included 652 patients from 11 sites. The agreement between manual and automated extraction for categorical variables was almost perfect in 13 (72.2%) variables (Race, Ethnicity, Sex, Coronary Artery Disease, Hypertension, Congestive Heart Failure, Asthma, Diabetes Mellitus, ICU admission rate, IMV rate, HFNC rate, ICU and Hospital Discharge Status), and substantial in five (27.8%) (COPD, CKD, Dyslipidemia/Hyperlipidemia, NIMV, and ECMO rate). The correlations were extremely high in three (42.9%) variables (age, weight, and hospital LOS) and high in four (57.1%) of the continuous variables (Height, Days to ICU admission, ICU LOS, and IMV days). The average sensitivity and specificity for the categorical data were 90.7 and 96.9%. CONCLUSION AND RELEVANCE: Our study confirms the feasibility and validity of an automated process to gather data from the EHR.
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spelling pubmed-105835982023-10-19 Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP) Valencia Morales, Diana J. Bansal, Vikas Heavner, Smith F. Castro, Janna C. Sharma, Mayank Tekin, Aysun Bogojevic, Marija Zec, Simon Sharma, Nikhil Cartin-Ceba, Rodrigo Nanchal, Rahul S. Sanghavi, Devang K. La Nou, Abigail T. Khan, Syed A. Belden, Katherine A. Chen, Jen-Ting Melamed, Roman R. Sayed, Imran A. Reilkoff, Ronald A. Herasevich, Vitaly Domecq Garces, Juan Pablo Walkey, Allan J. Boman, Karen Kumar, Vishakha K. Kashyap, Rahul Front Med (Lausanne) Medicine BACKGROUND: The gold standard for gathering data from electronic health records (EHR) has been manual data extraction; however, this requires vast resources and personnel. Automation of this process reduces resource burdens and expands research opportunities. OBJECTIVE: This study aimed to determine the feasibility and reliability of automated data extraction in a large registry of adult COVID-19 patients. MATERIALS AND METHODS: This observational study included data from sites participating in the SCCM Discovery VIRUS COVID-19 registry. Important demographic, comorbidity, and outcome variables were chosen for manual and automated extraction for the feasibility dataset. We quantified the degree of agreement with Cohen’s kappa statistics for categorical variables. The sensitivity and specificity were also assessed. Correlations for continuous variables were assessed with Pearson’s correlation coefficient and Bland–Altman plots. The strength of agreement was defined as almost perfect (0.81–1.00), substantial (0.61–0.80), and moderate (0.41–0.60) based on kappa statistics. Pearson correlations were classified as trivial (0.00–0.30), low (0.30–0.50), moderate (0.50–0.70), high (0.70–0.90), and extremely high (0.90–1.00). MEASUREMENTS AND MAIN RESULTS: The cohort included 652 patients from 11 sites. The agreement between manual and automated extraction for categorical variables was almost perfect in 13 (72.2%) variables (Race, Ethnicity, Sex, Coronary Artery Disease, Hypertension, Congestive Heart Failure, Asthma, Diabetes Mellitus, ICU admission rate, IMV rate, HFNC rate, ICU and Hospital Discharge Status), and substantial in five (27.8%) (COPD, CKD, Dyslipidemia/Hyperlipidemia, NIMV, and ECMO rate). The correlations were extremely high in three (42.9%) variables (age, weight, and hospital LOS) and high in four (57.1%) of the continuous variables (Height, Days to ICU admission, ICU LOS, and IMV days). The average sensitivity and specificity for the categorical data were 90.7 and 96.9%. CONCLUSION AND RELEVANCE: Our study confirms the feasibility and validity of an automated process to gather data from the EHR. Frontiers Media S.A. 2023-10-04 /pmc/articles/PMC10583598/ /pubmed/37859860 http://dx.doi.org/10.3389/fmed.2023.1089087 Text en Copyright © 2023 Valencia Morales, Bansal, Heavner, Castro, Sharma, Tekin, Bogojevic, Zec, Sharma, Cartin-Ceba, Nanchal, Sanghavi, La Nou, Khan, Belden, Chen, Melamed, Sayed, Reilkoff, Herasevich, Domecq Garces, Walkey, Boman, Kumar and Kashyap. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Medicine
Valencia Morales, Diana J.
Bansal, Vikas
Heavner, Smith F.
Castro, Janna C.
Sharma, Mayank
Tekin, Aysun
Bogojevic, Marija
Zec, Simon
Sharma, Nikhil
Cartin-Ceba, Rodrigo
Nanchal, Rahul S.
Sanghavi, Devang K.
La Nou, Abigail T.
Khan, Syed A.
Belden, Katherine A.
Chen, Jen-Ting
Melamed, Roman R.
Sayed, Imran A.
Reilkoff, Ronald A.
Herasevich, Vitaly
Domecq Garces, Juan Pablo
Walkey, Allan J.
Boman, Karen
Kumar, Vishakha K.
Kashyap, Rahul
Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title_full Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title_fullStr Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title_full_unstemmed Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title_short Validation of automated data abstraction for SCCM discovery VIRUS COVID-19 registry: practical EHR export pathways (VIRUS-PEEP)
title_sort validation of automated data abstraction for sccm discovery virus covid-19 registry: practical ehr export pathways (virus-peep)
topic Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10583598/
https://www.ncbi.nlm.nih.gov/pubmed/37859860
http://dx.doi.org/10.3389/fmed.2023.1089087
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