Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks

PURPOSE: Quantitative lung measures derived from computed tomography (CT) have been demonstrated to improve prognostication in coronavirus disease 2019 (COVID-19) patients but are not part of clinical routine because the required manual segmentation of lung lesions is prohibitively time consuming. W...

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Autores principales: Killekar, Aditya, Grodecki, Kajetan, Lin, Andrew, Cadet, Sebastien, McElhinney, Priscilla, Razipour, Aryabod, Chan, Cato, Pressman, Barry D., Julien, Peter, Chen, Peter, Simon, Judit, Maurovich-Horvat, Pal, Gaibazzi, Nicola, Thakur, Udit, Mancini, Elisabetta, Agalbato, Cecilia, Munechika, Jiro, Matsumoto, Hidenari, Menè, Roberto, Parati, Gianfranco, Cernigliaro, Franco, Nerlekar, Nitesh, Torlasco, Camilla, Pontone, Gianluca, Dey, Damini, Slomka, Piotr
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Society of Photo-Optical Instrumentation Engineers 2022
Materias:
Image Processing
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9446878/
https://www.ncbi.nlm.nih.gov/pubmed/36090960
http://dx.doi.org/10.1117/1.JMI.9.5.054001
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author Killekar, Aditya
Grodecki, Kajetan
Lin, Andrew
Cadet, Sebastien
McElhinney, Priscilla
Razipour, Aryabod
Chan, Cato
Pressman, Barry D.
Julien, Peter
Chen, Peter
Simon, Judit
Maurovich-Horvat, Pal
Gaibazzi, Nicola
Thakur, Udit
Mancini, Elisabetta
Agalbato, Cecilia
Munechika, Jiro
Matsumoto, Hidenari
Menè, Roberto
Parati, Gianfranco
Cernigliaro, Franco
Nerlekar, Nitesh
Torlasco, Camilla
Pontone, Gianluca
Dey, Damini
Slomka, Piotr
author_facet Killekar, Aditya
Grodecki, Kajetan
Lin, Andrew
Cadet, Sebastien
McElhinney, Priscilla
Razipour, Aryabod
Chan, Cato
Pressman, Barry D.
Julien, Peter
Chen, Peter
Simon, Judit
Maurovich-Horvat, Pal
Gaibazzi, Nicola
Thakur, Udit
Mancini, Elisabetta
Agalbato, Cecilia
Munechika, Jiro
Matsumoto, Hidenari
Menè, Roberto
Parati, Gianfranco
Cernigliaro, Franco
Nerlekar, Nitesh
Torlasco, Camilla
Pontone, Gianluca
Dey, Damini
Slomka, Piotr
author_sort Killekar, Aditya
collection PubMed
description PURPOSE: Quantitative lung measures derived from computed tomography (CT) have been demonstrated to improve prognostication in coronavirus disease 2019 (COVID-19) patients but are not part of clinical routine because the required manual segmentation of lung lesions is prohibitively time consuming. We aim to automatically segment ground-glass opacities and high opacities (comprising consolidation and pleural effusion). APPROACH: We propose a new fully automated deep-learning framework for fast multi-class segmentation of lung lesions in COVID-19 pneumonia from both contrast and non-contrast CT images using convolutional long short-term memory (ConvLSTM) networks. Utilizing the expert annotations, model training was performed using five-fold cross-validation to segment COVID-19 lesions. The performance of the method was evaluated on CT datasets from 197 patients with a positive reverse transcription polymerase chain reaction test result for SARS-CoV-2, 68 unseen test cases, and 695 independent controls. RESULTS: Strong agreement between expert manual and automatic segmentation was obtained for lung lesions with a Dice score of [Formula: see text]; excellent correlations of 0.93 and 0.98 for ground-glass opacity (GGO) and high opacity volumes, respectively, were obtained. In the external testing set of 68 patients, we observed a Dice score of [Formula: see text] as well as excellent correlations of 0.99 and 0.98 for GGO and high opacity volumes, respectively. Computations for a CT scan comprising 120 slices were performed under 3 s on a computer equipped with an NVIDIA TITAN RTX GPU. Diagnostically, the automated quantification of the lung burden % discriminate COVID-19 patients from controls with an area under the receiver operating curve of 0.96 (0.95–0.98). CONCLUSIONS: Our method allows for the rapid fully automated quantitative measurement of the pneumonia burden from CT, which can be used to rapidly assess the severity of COVID-19 pneumonia on chest CT.
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spelling pubmed-94468782023-09-06 Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks Killekar, Aditya Grodecki, Kajetan Lin, Andrew Cadet, Sebastien McElhinney, Priscilla Razipour, Aryabod Chan, Cato Pressman, Barry D. Julien, Peter Chen, Peter Simon, Judit Maurovich-Horvat, Pal Gaibazzi, Nicola Thakur, Udit Mancini, Elisabetta Agalbato, Cecilia Munechika, Jiro Matsumoto, Hidenari Menè, Roberto Parati, Gianfranco Cernigliaro, Franco Nerlekar, Nitesh Torlasco, Camilla Pontone, Gianluca Dey, Damini Slomka, Piotr J Med Imaging (Bellingham) Image Processing PURPOSE: Quantitative lung measures derived from computed tomography (CT) have been demonstrated to improve prognostication in coronavirus disease 2019 (COVID-19) patients but are not part of clinical routine because the required manual segmentation of lung lesions is prohibitively time consuming. We aim to automatically segment ground-glass opacities and high opacities (comprising consolidation and pleural effusion). APPROACH: We propose a new fully automated deep-learning framework for fast multi-class segmentation of lung lesions in COVID-19 pneumonia from both contrast and non-contrast CT images using convolutional long short-term memory (ConvLSTM) networks. Utilizing the expert annotations, model training was performed using five-fold cross-validation to segment COVID-19 lesions. The performance of the method was evaluated on CT datasets from 197 patients with a positive reverse transcription polymerase chain reaction test result for SARS-CoV-2, 68 unseen test cases, and 695 independent controls. RESULTS: Strong agreement between expert manual and automatic segmentation was obtained for lung lesions with a Dice score of [Formula: see text]; excellent correlations of 0.93 and 0.98 for ground-glass opacity (GGO) and high opacity volumes, respectively, were obtained. In the external testing set of 68 patients, we observed a Dice score of [Formula: see text] as well as excellent correlations of 0.99 and 0.98 for GGO and high opacity volumes, respectively. Computations for a CT scan comprising 120 slices were performed under 3 s on a computer equipped with an NVIDIA TITAN RTX GPU. Diagnostically, the automated quantification of the lung burden % discriminate COVID-19 patients from controls with an area under the receiver operating curve of 0.96 (0.95–0.98). CONCLUSIONS: Our method allows for the rapid fully automated quantitative measurement of the pneumonia burden from CT, which can be used to rapidly assess the severity of COVID-19 pneumonia on chest CT. Society of Photo-Optical Instrumentation Engineers 2022-09-06 2022-09 /pmc/articles/PMC9446878/ /pubmed/36090960 http://dx.doi.org/10.1117/1.JMI.9.5.054001 Text en © 2022 Society of Photo-Optical Instrumentation Engineers (SPIE)
spellingShingle Image Processing
Killekar, Aditya
Grodecki, Kajetan
Lin, Andrew
Cadet, Sebastien
McElhinney, Priscilla
Razipour, Aryabod
Chan, Cato
Pressman, Barry D.
Julien, Peter
Chen, Peter
Simon, Judit
Maurovich-Horvat, Pal
Gaibazzi, Nicola
Thakur, Udit
Mancini, Elisabetta
Agalbato, Cecilia
Munechika, Jiro
Matsumoto, Hidenari
Menè, Roberto
Parati, Gianfranco
Cernigliaro, Franco
Nerlekar, Nitesh
Torlasco, Camilla
Pontone, Gianluca
Dey, Damini
Slomka, Piotr
Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title_full Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title_fullStr Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title_full_unstemmed Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title_short Rapid quantification of COVID-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
title_sort rapid quantification of covid-19 pneumonia burden from computed tomography with convolutional long short-term memory networks
topic Image Processing
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9446878/
https://www.ncbi.nlm.nih.gov/pubmed/36090960
http://dx.doi.org/10.1117/1.JMI.9.5.054001
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