An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality

RATIONALE AND OBJECTIVES: The burden of coronavirus disease 2019 (COVID-19) airspace opacities is time consuming and challenging to quantify on computed tomography. The purpose of this study was to evaluate the ability of a deep convolutional neural network (dCNN) to predict inpatient outcomes assoc...

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Autores principales: Chamberlin, Jordan H., Aquino, Gilberto, Schoepf, Uwe Joseph, Nance, Sophia, Godoy, Franco, Carson, Landin, Giovagnoli, Vincent M., Gill, Callum E., McGill, Liam J., O'Doherty, Jim, Emrich, Tilman, Burt, Jeremy R., Baruah, Dhiraj, Varga-Szemes, Akos, Kabakus, Ismail M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Association of University Radiologists. Published by Elsevier Inc. 2022
Materias:
Original Investigation
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8977389/
https://www.ncbi.nlm.nih.gov/pubmed/35610114
http://dx.doi.org/10.1016/j.acra.2022.03.023
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author Chamberlin, Jordan H.
Aquino, Gilberto
Schoepf, Uwe Joseph
Nance, Sophia
Godoy, Franco
Carson, Landin
Giovagnoli, Vincent M.
Gill, Callum E.
McGill, Liam J.
O'Doherty, Jim
Emrich, Tilman
Burt, Jeremy R.
Baruah, Dhiraj
Varga-Szemes, Akos
Kabakus, Ismail M.
author_facet Chamberlin, Jordan H.
Aquino, Gilberto
Schoepf, Uwe Joseph
Nance, Sophia
Godoy, Franco
Carson, Landin
Giovagnoli, Vincent M.
Gill, Callum E.
McGill, Liam J.
O'Doherty, Jim
Emrich, Tilman
Burt, Jeremy R.
Baruah, Dhiraj
Varga-Szemes, Akos
Kabakus, Ismail M.
author_sort Chamberlin, Jordan H.
collection PubMed
description RATIONALE AND OBJECTIVES: The burden of coronavirus disease 2019 (COVID-19) airspace opacities is time consuming and challenging to quantify on computed tomography. The purpose of this study was to evaluate the ability of a deep convolutional neural network (dCNN) to predict inpatient outcomes associated with COVID-19 pneumonia. MATERIALS AND METHODS: A previously trained dCNN was tested on an external validation cohort of 241 patients who presented to the emergency department and received a chest computed tomography scan, 93 with COVID-19 and 168 without. Airspace opacity scoring systems were defined by the extent of airspace opacity in each lobe, totaled across the entire lungs. Expert and dCNN scores were concurrently evaluated for interobserver agreement, while both dCNN identified airspace opacity scoring and raw opacity values were used in the prediction of COVID-19 diagnosis and inpatient outcomes. RESULTS: Interobserver agreement for airspace opacity scoring was 0.892 (95% CI 0.834-0.930). Probability of each outcome behaved as a logistic function of the opacity scoring (25% intensive care unit admission at score of 13/25, 25% intubation at 17/25, and 25% mortality at 20/25). Length of hospitalization, intensive care unit stay, and intubation were associated with larger airspace opacity score (p = 0.032, 0.039, 0.036, respectively). CONCLUSION: The tested dCNN was highly predictive of inpatient outcomes, performs at a near expert level, and provides added value for clinicians in terms of prognostication and disease severity.
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spelling pubmed-89773892022-04-04 An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality Chamberlin, Jordan H. Aquino, Gilberto Schoepf, Uwe Joseph Nance, Sophia Godoy, Franco Carson, Landin Giovagnoli, Vincent M. Gill, Callum E. McGill, Liam J. O'Doherty, Jim Emrich, Tilman Burt, Jeremy R. Baruah, Dhiraj Varga-Szemes, Akos Kabakus, Ismail M. Acad Radiol Original Investigation RATIONALE AND OBJECTIVES: The burden of coronavirus disease 2019 (COVID-19) airspace opacities is time consuming and challenging to quantify on computed tomography. The purpose of this study was to evaluate the ability of a deep convolutional neural network (dCNN) to predict inpatient outcomes associated with COVID-19 pneumonia. MATERIALS AND METHODS: A previously trained dCNN was tested on an external validation cohort of 241 patients who presented to the emergency department and received a chest computed tomography scan, 93 with COVID-19 and 168 without. Airspace opacity scoring systems were defined by the extent of airspace opacity in each lobe, totaled across the entire lungs. Expert and dCNN scores were concurrently evaluated for interobserver agreement, while both dCNN identified airspace opacity scoring and raw opacity values were used in the prediction of COVID-19 diagnosis and inpatient outcomes. RESULTS: Interobserver agreement for airspace opacity scoring was 0.892 (95% CI 0.834-0.930). Probability of each outcome behaved as a logistic function of the opacity scoring (25% intensive care unit admission at score of 13/25, 25% intubation at 17/25, and 25% mortality at 20/25). Length of hospitalization, intensive care unit stay, and intubation were associated with larger airspace opacity score (p = 0.032, 0.039, 0.036, respectively). CONCLUSION: The tested dCNN was highly predictive of inpatient outcomes, performs at a near expert level, and provides added value for clinicians in terms of prognostication and disease severity. The Association of University Radiologists. Published by Elsevier Inc. 2022-08 2022-04-04 /pmc/articles/PMC8977389/ /pubmed/35610114 http://dx.doi.org/10.1016/j.acra.2022.03.023 Text en © 2022 The Association of University Radiologists. Published by Elsevier Inc. All rights reserved. Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.
spellingShingle Original Investigation
Chamberlin, Jordan H.
Aquino, Gilberto
Schoepf, Uwe Joseph
Nance, Sophia
Godoy, Franco
Carson, Landin
Giovagnoli, Vincent M.
Gill, Callum E.
McGill, Liam J.
O'Doherty, Jim
Emrich, Tilman
Burt, Jeremy R.
Baruah, Dhiraj
Varga-Szemes, Akos
Kabakus, Ismail M.
An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title_full An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title_fullStr An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title_full_unstemmed An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title_short An Interpretable Chest CT Deep Learning Algorithm for Quantification of COVID-19 Lung Disease and Prediction of Inpatient Morbidity and Mortality
title_sort interpretable chest ct deep learning algorithm for quantification of covid-19 lung disease and prediction of inpatient morbidity and mortality
topic Original Investigation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8977389/
https://www.ncbi.nlm.nih.gov/pubmed/35610114
http://dx.doi.org/10.1016/j.acra.2022.03.023
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