Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States

BACKGROUND: As diagnostic tests for COVID-19 were broadly deployed under Emergency Use Authorization, there emerged a need to understand the real-world utilization and performance of serological testing across the United States. METHODS: Six health systems contributed electronic health records and/o...

Descripción completa

Detalles Bibliográficos
Autores principales: Rodriguez-Watson, Carla V., Sheils, Natalie E., Louder, Anthony M., Eldridge, Elizabeth H., Lin, Nancy D., Pollock, Benjamin D., Gatz, Jennifer L., Grannis, Shaun J., Vashisht, Rohit, Ghauri, Kanwal, Valo, Gina, Chakravarty, Aloka G., Lasky, Tamar, Jung, Mary, Lovell, Stephen L., Major, Jacqueline M., Kabelac, Carly, Knepper, Camille, Leonard, Sandy, Embi, Peter J., Jenkinson, William G., Klesh, Reyna, Garner, Omai B., Patel, Ayan, Dahm, Lisa, Barin, Aiden, Cooper, Dan M., Andriola, Tom, Byington, Carrie L., Crews, Bridgit O., Butte, Atul J., Allen, Jeff
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9916659/
https://www.ncbi.nlm.nih.gov/pubmed/36763574
http://dx.doi.org/10.1371/journal.pone.0281365
_version_ 1784886179927162880
author Rodriguez-Watson, Carla V.
Sheils, Natalie E.
Louder, Anthony M.
Eldridge, Elizabeth H.
Lin, Nancy D.
Pollock, Benjamin D.
Gatz, Jennifer L.
Grannis, Shaun J.
Vashisht, Rohit
Ghauri, Kanwal
Valo, Gina
Chakravarty, Aloka G.
Lasky, Tamar
Jung, Mary
Lovell, Stephen L.
Major, Jacqueline M.
Kabelac, Carly
Knepper, Camille
Leonard, Sandy
Embi, Peter J.
Jenkinson, William G.
Klesh, Reyna
Garner, Omai B.
Patel, Ayan
Dahm, Lisa
Barin, Aiden
Cooper, Dan M.
Andriola, Tom
Byington, Carrie L.
Crews, Bridgit O.
Butte, Atul J.
Allen, Jeff
author_facet Rodriguez-Watson, Carla V.
Sheils, Natalie E.
Louder, Anthony M.
Eldridge, Elizabeth H.
Lin, Nancy D.
Pollock, Benjamin D.
Gatz, Jennifer L.
Grannis, Shaun J.
Vashisht, Rohit
Ghauri, Kanwal
Valo, Gina
Chakravarty, Aloka G.
Lasky, Tamar
Jung, Mary
Lovell, Stephen L.
Major, Jacqueline M.
Kabelac, Carly
Knepper, Camille
Leonard, Sandy
Embi, Peter J.
Jenkinson, William G.
Klesh, Reyna
Garner, Omai B.
Patel, Ayan
Dahm, Lisa
Barin, Aiden
Cooper, Dan M.
Andriola, Tom
Byington, Carrie L.
Crews, Bridgit O.
Butte, Atul J.
Allen, Jeff
author_sort Rodriguez-Watson, Carla V.
collection PubMed
description BACKGROUND: As diagnostic tests for COVID-19 were broadly deployed under Emergency Use Authorization, there emerged a need to understand the real-world utilization and performance of serological testing across the United States. METHODS: Six health systems contributed electronic health records and/or claims data, jointly developed a master protocol, and used it to execute the analysis in parallel. We used descriptive statistics to examine demographic, clinical, and geographic characteristics of serology testing among patients with RNA positive for SARS-CoV-2. RESULTS: Across datasets, we observed 930,669 individuals with positive RNA for SARS-CoV-2. Of these, 35,806 (4%) were serotested within 90 days; 15% of which occurred <14 days from the RNA positive test. The proportion of people with a history of cardiovascular disease, obesity, chronic lung, or kidney disease; or presenting with shortness of breath or pneumonia appeared higher among those serotested compared to those who were not. Even in a population of people with active infection, race/ethnicity data were largely missing (>30%) in some datasets—limiting our ability to examine differences in serological testing by race. In datasets where race/ethnicity information was available, we observed a greater distribution of White individuals among those serotested; however, the time between RNA and serology tests appeared shorter in Black compared to White individuals. Test manufacturer data was available in half of the datasets contributing to the analysis. CONCLUSION: Our results inform the underlying context of serotesting during the first year of the COVID-19 pandemic and differences observed between claims and EHR data sources–a critical first step to understanding the real-world accuracy of serological tests. Incomplete reporting of race/ethnicity data and a limited ability to link test manufacturer data, lab results, and clinical data challenge the ability to assess the real-world performance of SARS-CoV-2 tests in different contexts and the overall U.S. response to current and future disease pandemics.
format Online
Article
Text
id pubmed-9916659
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-99166592023-02-11 Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States Rodriguez-Watson, Carla V. Sheils, Natalie E. Louder, Anthony M. Eldridge, Elizabeth H. Lin, Nancy D. Pollock, Benjamin D. Gatz, Jennifer L. Grannis, Shaun J. Vashisht, Rohit Ghauri, Kanwal Valo, Gina Chakravarty, Aloka G. Lasky, Tamar Jung, Mary Lovell, Stephen L. Major, Jacqueline M. Kabelac, Carly Knepper, Camille Leonard, Sandy Embi, Peter J. Jenkinson, William G. Klesh, Reyna Garner, Omai B. Patel, Ayan Dahm, Lisa Barin, Aiden Cooper, Dan M. Andriola, Tom Byington, Carrie L. Crews, Bridgit O. Butte, Atul J. Allen, Jeff PLoS One Research Article BACKGROUND: As diagnostic tests for COVID-19 were broadly deployed under Emergency Use Authorization, there emerged a need to understand the real-world utilization and performance of serological testing across the United States. METHODS: Six health systems contributed electronic health records and/or claims data, jointly developed a master protocol, and used it to execute the analysis in parallel. We used descriptive statistics to examine demographic, clinical, and geographic characteristics of serology testing among patients with RNA positive for SARS-CoV-2. RESULTS: Across datasets, we observed 930,669 individuals with positive RNA for SARS-CoV-2. Of these, 35,806 (4%) were serotested within 90 days; 15% of which occurred <14 days from the RNA positive test. The proportion of people with a history of cardiovascular disease, obesity, chronic lung, or kidney disease; or presenting with shortness of breath or pneumonia appeared higher among those serotested compared to those who were not. Even in a population of people with active infection, race/ethnicity data were largely missing (>30%) in some datasets—limiting our ability to examine differences in serological testing by race. In datasets where race/ethnicity information was available, we observed a greater distribution of White individuals among those serotested; however, the time between RNA and serology tests appeared shorter in Black compared to White individuals. Test manufacturer data was available in half of the datasets contributing to the analysis. CONCLUSION: Our results inform the underlying context of serotesting during the first year of the COVID-19 pandemic and differences observed between claims and EHR data sources–a critical first step to understanding the real-world accuracy of serological tests. Incomplete reporting of race/ethnicity data and a limited ability to link test manufacturer data, lab results, and clinical data challenge the ability to assess the real-world performance of SARS-CoV-2 tests in different contexts and the overall U.S. response to current and future disease pandemics. Public Library of Science 2023-02-10 /pmc/articles/PMC9916659/ /pubmed/36763574 http://dx.doi.org/10.1371/journal.pone.0281365 Text en https://creativecommons.org/publicdomain/zero/1.0/This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 (https://creativecommons.org/publicdomain/zero/1.0/) public domain dedication.
spellingShingle Research Article
Rodriguez-Watson, Carla V.
Sheils, Natalie E.
Louder, Anthony M.
Eldridge, Elizabeth H.
Lin, Nancy D.
Pollock, Benjamin D.
Gatz, Jennifer L.
Grannis, Shaun J.
Vashisht, Rohit
Ghauri, Kanwal
Valo, Gina
Chakravarty, Aloka G.
Lasky, Tamar
Jung, Mary
Lovell, Stephen L.
Major, Jacqueline M.
Kabelac, Carly
Knepper, Camille
Leonard, Sandy
Embi, Peter J.
Jenkinson, William G.
Klesh, Reyna
Garner, Omai B.
Patel, Ayan
Dahm, Lisa
Barin, Aiden
Cooper, Dan M.
Andriola, Tom
Byington, Carrie L.
Crews, Bridgit O.
Butte, Atul J.
Allen, Jeff
Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title_full Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title_fullStr Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title_full_unstemmed Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title_short Real-world utilization of SARS-CoV-2 serological testing in RNA positive patients across the United States
title_sort real-world utilization of sars-cov-2 serological testing in rna positive patients across the united states
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9916659/
https://www.ncbi.nlm.nih.gov/pubmed/36763574
http://dx.doi.org/10.1371/journal.pone.0281365
work_keys_str_mv AT rodriguezwatsoncarlav realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT sheilsnataliee realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT louderanthonym realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT eldridgeelizabethh realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT linnancyd realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT pollockbenjamind realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT gatzjenniferl realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT grannisshaunj realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT vashishtrohit realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT ghaurikanwal realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT valogina realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT chakravartyalokag realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT laskytamar realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT jungmary realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT lovellstephenl realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT majorjacquelinem realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT kabelaccarly realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT kneppercamille realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT leonardsandy realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT embipeterj realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT jenkinsonwilliamg realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT kleshreyna realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT garneromaib realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT patelayan realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT dahmlisa realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT barinaiden realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT cooperdanm realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT andriolatom realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT byingtoncarriel realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT crewsbridgito realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT butteatulj realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates
AT allenjeff realworldutilizationofsarscov2serologicaltestinginrnapositivepatientsacrosstheunitedstates

Ejemplares similares