COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans

Jasjit S. Suri; Sushant Agarwal; Gian Luca Chabert; Alessandro Carriero; Alessio Paschè; Pietro S.C. Danna; Luca Saba; Armin Mehmedović; Gavino Faa; Inder M. Singh; Monika Turk; Paramjit S. Chadha; Amer M. Johri; Narendra N. Khanna; Sophie Mavrogeni; John R. Laird; Gyan Pareek; Martin Miner; David W. Sobel; Antonella Balestrieri; Petros P. Sfikakis; George Tsoulfas; Athanasios D. Protogerou; Durga Prasanna Misra; Vikas Agarwal; George D. Kitas; Jagjit S. Teji; Mustafa Al-Maini; Surinder K. Dhanjil; Andrew Nicolaides; Aditya Sharma; Vijay Rathore; Mostafa Fatemi; Azra Alizad; Pudukode R. Krishnan; Ferenc Nagy; Zoltan Ruzsa; Mostafa M. Fouda; Subbaram Naidu; Klaudija Viskovic; Manudeep K. Kalra

doi:10.3390/diagnostics12051283

COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans

Jasjit S. Suri, Sushant Agarwal, Gian Luca Chabert, Alessandro Carriero, Alessio Paschè, Pietro S.C. Danna, Luca Saba, Armin Mehmedović, Gavino Faa, Inder M. Singh, Monika Turk, Paramjit S. Chadha, Amer M. Johri, Narendra N. Khanna, Sophie Mavrogeni, John R. Laird, Gyan Pareek, Martin Miner, David W. Sobel, Antonella BalestrieriPetros P. Sfikakis, George Tsoulfas, Athanasios D. Protogerou, Durga Prasanna Misra, Vikas Agarwal, George D. Kitas, Jagjit S. Teji, Mustafa Al-Maini, Surinder K. Dhanjil, Andrew Nicolaides, Aditya Sharma, Vijay Rathore, Mostafa Fatemi, Azra Alizad, Pudukode R. Krishnan, Ferenc Nagy, Zoltan Ruzsa, Mostafa M. Fouda, Subbaram Naidu, Klaudija Viskovic, Manudeep K. Kalra

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Background: COVID-19 is a disease with multiple variants, and is quickly spreading throughout the world. It is crucial to identify patients who are suspected of having COVID-19 early, because the vaccine is not readily available in certain parts of the world. Methodology: Lung computed tomography (CT) imaging can be used to diagnose COVID-19 as an alternative to the RT-PCR test in some cases. The occurrence of ground-glass opacities in the lung region is a characteristic of COVID-19 in chest CT scans, and these are daunting to locate and segment manually. The proposed study consists of a combination of solo deep learning (DL) and hybrid DL (HDL) models to tackle the lesion location and segmentation more quickly. One DL and four HDL models—namely, PSPNet, VGG-SegNet, ResNet-SegNet, VGG-UNet, and ResNet-UNet—were trained by an expert radiologist. The training scheme adopted a fivefold cross-validation strategy on a cohort of 3000 images selected from a set of 40 COVID-19-positive individuals. Results: The proposed variability study uses tracings from two trained radiologists as part of the validation. Five artificial intelligence (AI) models were benchmarked against MedSeg. The best AI model, ResNet-UNet, was superior to MedSeg by 9% and 15% for Dice and Jaccard, respectively, when compared against MD 1, and by 4% and 8%, respectively, when compared against MD 2. Statistical tests—namely, the Mann–Whit-ney test, paired t-test, and Wilcoxon test—demonstrated its stability and reliability, with p < 0.0001. The online system for each slice was < 1 s. Conclusions: The AI models reliably located and seg-mented COVID-19 lesions in CT scans. The COVLIAS 1.0Lesion lesion locator passed the intervaria-bility test.

Lingua originale	Inglese
Numero di articolo	1283
Rivista	Diagnostics
Volume	12
Numero di pubblicazione	5
DOI	https://doi.org/10.3390/diagnostics12051283
Stato di pubblicazione	Pubblicato - mag 2022
Pubblicato esternamente	Sì

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Suri, J. S., Agarwal, S., Chabert, G. L., Carriero, A., Paschè, A., Danna, P. S. C., Saba, L., Mehmedović, A., Faa, G., Singh, I. M., Turk, M., Chadha, P. S., Johri, A. M., Khanna, N. N., Mavrogeni, S., Laird, J. R., Pareek, G., Miner, M., Sobel, D. W., ... Kalra, M. K. (2022). COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans. Diagnostics, 12(5), Articolo 1283. https://doi.org/10.3390/diagnostics12051283

@article{0281cb8137e24de19af2866859181242,

title = "COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans",

abstract = "Background: COVID-19 is a disease with multiple variants, and is quickly spreading throughout the world. It is crucial to identify patients who are suspected of having COVID-19 early, because the vaccine is not readily available in certain parts of the world. Methodology: Lung computed tomography (CT) imaging can be used to diagnose COVID-19 as an alternative to the RT-PCR test in some cases. The occurrence of ground-glass opacities in the lung region is a characteristic of COVID-19 in chest CT scans, and these are daunting to locate and segment manually. The proposed study consists of a combination of solo deep learning (DL) and hybrid DL (HDL) models to tackle the lesion location and segmentation more quickly. One DL and four HDL models—namely, PSPNet, VGG-SegNet, ResNet-SegNet, VGG-UNet, and ResNet-UNet—were trained by an expert radiologist. The training scheme adopted a fivefold cross-validation strategy on a cohort of 3000 images selected from a set of 40 COVID-19-positive individuals. Results: The proposed variability study uses tracings from two trained radiologists as part of the validation. Five artificial intelligence (AI) models were benchmarked against MedSeg. The best AI model, ResNet-UNet, was superior to MedSeg by 9\% and 15\% for Dice and Jaccard, respectively, when compared against MD 1, and by 4\% and 8\%, respectively, when compared against MD 2. Statistical tests—namely, the Mann–Whit-ney test, paired t-test, and Wilcoxon test—demonstrated its stability and reliability, with p < 0.0001. The online system for each slice was < 1 s. Conclusions: The AI models reliably located and seg-mented COVID-19 lesions in CT scans. The COVLIAS 1.0Lesion lesion locator passed the intervaria-bility test.",

keywords = "COVID lesions, COVID-19, computed tomography, ground-glass opacities, hybrid deep learning, segmentation",

author = "Suri, \{Jasjit S.\} and Sushant Agarwal and Chabert, \{Gian Luca\} and Alessandro Carriero and Alessio Pasch{\`e} and Danna, \{Pietro S.C.\} and Luca Saba and Armin Mehmedovi{\'c} and Gavino Faa and Singh, \{Inder M.\} and Monika Turk and Chadha, \{Paramjit S.\} and Johri, \{Amer M.\} and Khanna, \{Narendra N.\} and Sophie Mavrogeni and Laird, \{John R.\} and Gyan Pareek and Martin Miner and Sobel, \{David W.\} and Antonella Balestrieri and Sfikakis, \{Petros P.\} and George Tsoulfas and Protogerou, \{Athanasios D.\} and Misra, \{Durga Prasanna\} and Vikas Agarwal and Kitas, \{George D.\} and Teji, \{Jagjit S.\} and Mustafa Al-Maini and Dhanjil, \{Surinder K.\} and Andrew Nicolaides and Aditya Sharma and Vijay Rathore and Mostafa Fatemi and Azra Alizad and Krishnan, \{Pudukode R.\} and Ferenc Nagy and Zoltan Ruzsa and Fouda, \{Mostafa M.\} and Subbaram Naidu and Klaudija Viskovic and Kalra, \{Manudeep K.\}",

note = "Publisher Copyright: {\textcopyright} 2022 by the au-thors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = may,

doi = "10.3390/diagnostics12051283",

language = "English",

volume = "12",

journal = "Diagnostics",

issn = "2075-4418",

publisher = "MDPI AG",

number = "5",

}

Suri, JS, Agarwal, S, Chabert, GL, Carriero, A, Paschè, A, Danna, PSC, Saba, L, Mehmedović, A, Faa, G, Singh, IM, Turk, M, Chadha, PS, Johri, AM, Khanna, NN, Mavrogeni, S, Laird, JR, Pareek, G, Miner, M, Sobel, DW, Balestrieri, A, Sfikakis, PP, Tsoulfas, G, Protogerou, AD, Misra, DP, Agarwal, V, Kitas, GD, Teji, JS, Al-Maini, M, Dhanjil, SK, Nicolaides, A, Sharma, A, Rathore, V, Fatemi, M, Alizad, A, Krishnan, PR, Nagy, F, Ruzsa, Z, Fouda, MM, Naidu, S, Viskovic, K & Kalra, MK 2022, 'COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans', Diagnostics, vol. 12, n. 5, 1283. https://doi.org/10.3390/diagnostics12051283

TY - JOUR

T1 - COVLIAS 1.0Lesion vs. MedSeg

T2 - An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans

AU - Suri, Jasjit S.

AU - Agarwal, Sushant

AU - Chabert, Gian Luca

AU - Carriero, Alessandro

AU - Paschè, Alessio

AU - Danna, Pietro S.C.

AU - Saba, Luca

AU - Mehmedović, Armin

AU - Faa, Gavino

AU - Singh, Inder M.

AU - Turk, Monika

AU - Chadha, Paramjit S.

AU - Johri, Amer M.

AU - Khanna, Narendra N.

AU - Mavrogeni, Sophie

AU - Laird, John R.

AU - Pareek, Gyan

AU - Miner, Martin

AU - Sobel, David W.

AU - Balestrieri, Antonella

AU - Sfikakis, Petros P.

AU - Tsoulfas, George

AU - Protogerou, Athanasios D.

AU - Misra, Durga Prasanna

AU - Agarwal, Vikas

AU - Kitas, George D.

AU - Teji, Jagjit S.

AU - Al-Maini, Mustafa

AU - Dhanjil, Surinder K.

AU - Nicolaides, Andrew

AU - Sharma, Aditya

AU - Rathore, Vijay

AU - Fatemi, Mostafa

AU - Alizad, Azra

AU - Krishnan, Pudukode R.

AU - Nagy, Ferenc

AU - Ruzsa, Zoltan

AU - Fouda, Mostafa M.

AU - Naidu, Subbaram

AU - Viskovic, Klaudija

AU - Kalra, Manudeep K.

PY - 2022/5

Y1 - 2022/5

N2 - Background: COVID-19 is a disease with multiple variants, and is quickly spreading throughout the world. It is crucial to identify patients who are suspected of having COVID-19 early, because the vaccine is not readily available in certain parts of the world. Methodology: Lung computed tomography (CT) imaging can be used to diagnose COVID-19 as an alternative to the RT-PCR test in some cases. The occurrence of ground-glass opacities in the lung region is a characteristic of COVID-19 in chest CT scans, and these are daunting to locate and segment manually. The proposed study consists of a combination of solo deep learning (DL) and hybrid DL (HDL) models to tackle the lesion location and segmentation more quickly. One DL and four HDL models—namely, PSPNet, VGG-SegNet, ResNet-SegNet, VGG-UNet, and ResNet-UNet—were trained by an expert radiologist. The training scheme adopted a fivefold cross-validation strategy on a cohort of 3000 images selected from a set of 40 COVID-19-positive individuals. Results: The proposed variability study uses tracings from two trained radiologists as part of the validation. Five artificial intelligence (AI) models were benchmarked against MedSeg. The best AI model, ResNet-UNet, was superior to MedSeg by 9% and 15% for Dice and Jaccard, respectively, when compared against MD 1, and by 4% and 8%, respectively, when compared against MD 2. Statistical tests—namely, the Mann–Whit-ney test, paired t-test, and Wilcoxon test—demonstrated its stability and reliability, with p < 0.0001. The online system for each slice was < 1 s. Conclusions: The AI models reliably located and seg-mented COVID-19 lesions in CT scans. The COVLIAS 1.0Lesion lesion locator passed the intervaria-bility test.

AB - Background: COVID-19 is a disease with multiple variants, and is quickly spreading throughout the world. It is crucial to identify patients who are suspected of having COVID-19 early, because the vaccine is not readily available in certain parts of the world. Methodology: Lung computed tomography (CT) imaging can be used to diagnose COVID-19 as an alternative to the RT-PCR test in some cases. The occurrence of ground-glass opacities in the lung region is a characteristic of COVID-19 in chest CT scans, and these are daunting to locate and segment manually. The proposed study consists of a combination of solo deep learning (DL) and hybrid DL (HDL) models to tackle the lesion location and segmentation more quickly. One DL and four HDL models—namely, PSPNet, VGG-SegNet, ResNet-SegNet, VGG-UNet, and ResNet-UNet—were trained by an expert radiologist. The training scheme adopted a fivefold cross-validation strategy on a cohort of 3000 images selected from a set of 40 COVID-19-positive individuals. Results: The proposed variability study uses tracings from two trained radiologists as part of the validation. Five artificial intelligence (AI) models were benchmarked against MedSeg. The best AI model, ResNet-UNet, was superior to MedSeg by 9% and 15% for Dice and Jaccard, respectively, when compared against MD 1, and by 4% and 8%, respectively, when compared against MD 2. Statistical tests—namely, the Mann–Whit-ney test, paired t-test, and Wilcoxon test—demonstrated its stability and reliability, with p < 0.0001. The online system for each slice was < 1 s. Conclusions: The AI models reliably located and seg-mented COVID-19 lesions in CT scans. The COVLIAS 1.0Lesion lesion locator passed the intervaria-bility test.

KW - COVID lesions

KW - COVID-19

KW - computed tomography

KW - ground-glass opacities

KW - hybrid deep learning

KW - segmentation

UR - http://www.scopus.com/inward/record.url?scp=85131208633&partnerID=8YFLogxK

U2 - 10.3390/diagnostics12051283

DO - 10.3390/diagnostics12051283

M3 - Article

SN - 2075-4418

VL - 12

JO - Diagnostics

JF - Diagnostics

IS - 5

M1 - 1283

ER -

COVLIAS 1.0Lesion vs. MedSeg: An Artificial Intelligence Framework for Automated Lesion Segmentation in COVID-19 Lung Computed Tomography Scans

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