Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers

Pierre Louis Benveniste; Laurent Létourneau-Guillon; David Araujo; Lydia Chougar; Dumitru Fetco; Masaaki Hori; Kouhei Kamiya; Steven Messina; Charidimos Tsagkas; Bertrand Audoin; Rohit Bakshi; Elise Bannier; Daniel Blezek; Jean Christophe Brisset; Virginie Callot; Erik Charlson; Michelle Chen; Olga Ciccarelli; Sarah Demortière; Gilles Edan; Massimo Filippi; Tobias Granberg; Cristina Granziera; Christopher C. Hemond; B. Mark Keegan; Anne Kerbrat; Jan Kirschke; Shannon Kolind; Pierre Labauge; Lisa Eunyoung Lee; Yaou Liu; Caterina Mainero; Julian McGinnis; Nilser Laines Medina; Mark Mühlau; Govind Nair; Kristin P. O’Grady; Jiwon Oh; Russell Ouellette; Alexandre Prat; Daniel S. Reich; Maria A. Rocca; Timothy M. Shepherd; Seth A. Smith; Leszek Stawiarz; Jason Talbott; Roger Tam; Shahamat Tauhid; Anthony Traboulsee; Constantina Andrada Treaba; Paola Valsasina; Zachary Vavasour; Marios Yiannakas; Hervé Lombaert; Julien Cohen-Adad

doi:10.1177/13524585261427333

Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers

Pierre Louis Benveniste
, Laurent Létourneau-Guillon
, David Araujo
, Lydia Chougar
, Dumitru Fetco
, Masaaki Hori
, Kouhei Kamiya
, Steven Messina
, Charidimos Tsagkas
, Bertrand Audoin
, Rohit Bakshi
, Elise Bannier
, Daniel Blezek
, Jean Christophe Brisset
, Virginie Callot
, Erik Charlson
, Michelle Chen
, Olga Ciccarelli
, Sarah Demortière
, Gilles Edan

Massimo Filippi, Tobias Granberg, Cristina Granziera, Christopher C. Hemond, B. Mark Keegan, Anne Kerbrat, Jan Kirschke, Shannon Kolind, Pierre Labauge, Lisa Eunyoung Lee, Yaou Liu, Caterina Mainero, Julian McGinnis, Nilser Laines Medina, Mark Mühlau, Govind Nair, Kristin P. O’Grady, Jiwon Oh, Russell Ouellette, Alexandre Prat, Daniel S. Reich, Maria A. Rocca, Timothy M. Shepherd, Seth A. Smith, Leszek Stawiarz, Jason Talbott, Roger Tam, Shahamat Tauhid, Anthony Traboulsee, Constantina Andrada Treaba, Paola Valsasina, Zachary Vavasour, Marios Yiannakas, Hervé Lombaert, Julien Cohen-Adad

Polytechnique Montréal
Université de Montréal
Centre Hospitalier de L'Universite de Montreal
McGill University
Sorbonne Université
A Clario Company
MNI
Toho University
Mayo Clinic Rochester, MN
University of Basel
National Institutes of Health
Aix Marseille Université
Assistance publique - Hôpitaux de Marseille
Harvard University
University of Rennes 1
CHU de Rennes
Medical Imaging Consulting
New York University
University College London
IRCCS San Raffaele Scientific Institute
Karolinska Institutet
University of Massachusetts Medical School
Technical University of Munich
University of British Columbia
CHU Montpellier
University of Toronto
Capital Medical University
Massachusetts General Hospital
Vanderbilt University
University of Montreal
Vita-Salute San Raffaele University
University of California at San Francisco

Résultats de recherche: Contribution à un journal › Article publié dans une revue, révisé par les pairs › Revue par des pairs

Résumé

Background/Objectives: Characterizing spinal cord multiple sclerosis (MS) lesions in MRI is critical for diagnosis, monitoring, and treatment evaluation. However, current automated approaches for lesion detection and segmentation are typically designed for specific MRI contrasts or acquisition sites, limiting their generalizability in real-world clinical settings where imaging protocols vary widely. This work proposes a robust multi-site, multi-contrast segmentation framework for spinal cord lesions. Methods: The segmentation model was trained and evaluated on a large-scale dataset comprising 4428 annotated images from 1849 persons with MS across 23 imaging centers, encompassing six MRI contrasts (T1w, T2w, T2*w, PSIR, STIR, and UNIT1) acquired at 1.5 tesla (T), 3 T, and 7 T. Results: Likert-type assessment performed by neuroradiologist ratings demonstrated superior generalization of the model compared to existing contrast-specific pipelines (p < 0.01). Additional experiments evaluated robustness across spinal levels, acquisition resolutions, binarization thresholds, and quantitative evaluation on external labeled datasets. Conclusions: The proposed model can achieve accurate and reliable spinal cord MS lesion segmentation across heterogeneous MRI data, addressing a key barrier to clinical translation. The model is available in the Spinal Cord Toolbox v7.2 and higher.

langue originale	Anglais
journal	Multiple Sclerosis Journal
Les DOIs	https://doi.org/10.1177/13524585261427333
état	Accepté/Sous presse - 2026
Modification externe	Oui

Accès au document

10.1177/13524585261427333

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Contient cette citation

Benveniste, P. L., Létourneau-Guillon, L., Araujo, D., Chougar, L., Fetco, D., Hori, M., Kamiya, K., Messina, S., Tsagkas, C., Audoin, B., Bakshi, R., Bannier, E., Blezek, D., Brisset, J. C., Callot, V., Charlson, E., Chen, M., Ciccarelli, O., Demortière, S., ... Cohen-Adad, J. (Accepté/en presse). Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers. Multiple Sclerosis Journal. https://doi.org/10.1177/13524585261427333

@article{56b9a4718ed44a60b0de90f57a600e93,

title = "Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers",

abstract = "Background/Objectives: Characterizing spinal cord multiple sclerosis (MS) lesions in MRI is critical for diagnosis, monitoring, and treatment evaluation. However, current automated approaches for lesion detection and segmentation are typically designed for specific MRI contrasts or acquisition sites, limiting their generalizability in real-world clinical settings where imaging protocols vary widely. This work proposes a robust multi-site, multi-contrast segmentation framework for spinal cord lesions. Methods: The segmentation model was trained and evaluated on a large-scale dataset comprising 4428 annotated images from 1849 persons with MS across 23 imaging centers, encompassing six MRI contrasts (T1w, T2w, T2*w, PSIR, STIR, and UNIT1) acquired at 1.5 tesla (T), 3 T, and 7 T. Results: Likert-type assessment performed by neuroradiologist ratings demonstrated superior generalization of the model compared to existing contrast-specific pipelines (p < 0.01). Additional experiments evaluated robustness across spinal levels, acquisition resolutions, binarization thresholds, and quantitative evaluation on external labeled datasets. Conclusions: The proposed model can achieve accurate and reliable spinal cord MS lesion segmentation across heterogeneous MRI data, addressing a key barrier to clinical translation. The model is available in the Spinal Cord Toolbox v7.2 and higher.",

keywords = "MRI, Spinal cord, deep learning, lesion, magnetic resonance imaging, multiple sclerosis, segmentation",

author = "Benveniste, \{Pierre Louis\} and Laurent L{\'e}tourneau-Guillon and David Araujo and Lydia Chougar and Dumitru Fetco and Masaaki Hori and Kouhei Kamiya and Steven Messina and Charidimos Tsagkas and Bertrand Audoin and Rohit Bakshi and Elise Bannier and Daniel Blezek and Brisset, \{Jean Christophe\} and Virginie Callot and Erik Charlson and Michelle Chen and Olga Ciccarelli and Sarah Demorti{\`e}re and Gilles Edan and Massimo Filippi and Tobias Granberg and Cristina Granziera and Hemond, \{Christopher C.\} and Keegan, \{B. Mark\} and Anne Kerbrat and Jan Kirschke and Shannon Kolind and Pierre Labauge and Lee, \{Lisa Eunyoung\} and Yaou Liu and Caterina Mainero and Julian McGinnis and \{Laines Medina\}, Nilser and Mark M{\"u}hlau and Govind Nair and O{\textquoteright}Grady, \{Kristin P.\} and Jiwon Oh and Russell Ouellette and Alexandre Prat and Reich, \{Daniel S.\} and Rocca, \{Maria A.\} and Shepherd, \{Timothy M.\} and Smith, \{Seth A.\} and Leszek Stawiarz and Jason Talbott and Roger Tam and Shahamat Tauhid and Anthony Traboulsee and Treaba, \{Constantina Andrada\} and Paola Valsasina and Zachary Vavasour and Marios Yiannakas and Herv{\'e} Lombaert and Julien Cohen-Adad",

note = "Publisher Copyright: {\textcopyright} The Author(s), 2026",

year = "2026",

doi = "10.1177/13524585261427333",

language = "English",

journal = "Multiple Sclerosis Journal",

issn = "1352-4585",

publisher = "SAGE Publications Ltd",

}

Benveniste, PL, Létourneau-Guillon, L, Araujo, D, Chougar, L, Fetco, D, Hori, M, Kamiya, K, Messina, S, Tsagkas, C, Audoin, B, Bakshi, R, Bannier, E, Blezek, D, Brisset, JC, Callot, V, Charlson, E, Chen, M, Ciccarelli, O, Demortière, S, Edan, G, Filippi, M, Granberg, T, Granziera, C, Hemond, CC, Keegan, BM, Kerbrat, A, Kirschke, J, Kolind, S, Labauge, P, Lee, LE, Liu, Y, Mainero, C, McGinnis, J, Laines Medina, N, Mühlau, M, Nair, G, O’Grady, KP, Oh, J, Ouellette, R, Prat, A, Reich, DS, Rocca, MA, Shepherd, TM, Smith, SA, Stawiarz, L, Talbott, J, Tam, R, Tauhid, S, Traboulsee, A, Treaba, CA, Valsasina, P, Vavasour, Z, Yiannakas, M, Lombaert, H & Cohen-Adad, J 2026, 'Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers', Multiple Sclerosis Journal. https://doi.org/10.1177/13524585261427333

TY - JOUR

T1 - Generalizable spinal cord multiple sclerosis lesion segmentation across MRI contrasts, protocols, and centers

AU - Benveniste, Pierre Louis

AU - Létourneau-Guillon, Laurent

AU - Araujo, David

AU - Chougar, Lydia

AU - Fetco, Dumitru

AU - Hori, Masaaki

AU - Kamiya, Kouhei

AU - Messina, Steven

AU - Tsagkas, Charidimos

AU - Audoin, Bertrand

AU - Bakshi, Rohit

AU - Bannier, Elise

AU - Blezek, Daniel

AU - Brisset, Jean Christophe

AU - Callot, Virginie

AU - Charlson, Erik

AU - Chen, Michelle

AU - Ciccarelli, Olga

AU - Demortière, Sarah

AU - Edan, Gilles

AU - Filippi, Massimo

AU - Granberg, Tobias

AU - Granziera, Cristina

AU - Hemond, Christopher C.

AU - Keegan, B. Mark

AU - Kerbrat, Anne

AU - Kirschke, Jan

AU - Kolind, Shannon

AU - Labauge, Pierre

AU - Lee, Lisa Eunyoung

AU - Liu, Yaou

AU - Mainero, Caterina

AU - McGinnis, Julian

AU - Laines Medina, Nilser

AU - Mühlau, Mark

AU - Nair, Govind

AU - O’Grady, Kristin P.

AU - Oh, Jiwon

AU - Ouellette, Russell

AU - Prat, Alexandre

AU - Reich, Daniel S.

AU - Rocca, Maria A.

AU - Shepherd, Timothy M.

AU - Smith, Seth A.

AU - Stawiarz, Leszek

AU - Talbott, Jason

AU - Tam, Roger

AU - Tauhid, Shahamat

AU - Traboulsee, Anthony

AU - Treaba, Constantina Andrada

AU - Valsasina, Paola

AU - Vavasour, Zachary

AU - Yiannakas, Marios

AU - Lombaert, Hervé

AU - Cohen-Adad, Julien

PY - 2026

Y1 - 2026

N2 - Background/Objectives: Characterizing spinal cord multiple sclerosis (MS) lesions in MRI is critical for diagnosis, monitoring, and treatment evaluation. However, current automated approaches for lesion detection and segmentation are typically designed for specific MRI contrasts or acquisition sites, limiting their generalizability in real-world clinical settings where imaging protocols vary widely. This work proposes a robust multi-site, multi-contrast segmentation framework for spinal cord lesions. Methods: The segmentation model was trained and evaluated on a large-scale dataset comprising 4428 annotated images from 1849 persons with MS across 23 imaging centers, encompassing six MRI contrasts (T1w, T2w, T2*w, PSIR, STIR, and UNIT1) acquired at 1.5 tesla (T), 3 T, and 7 T. Results: Likert-type assessment performed by neuroradiologist ratings demonstrated superior generalization of the model compared to existing contrast-specific pipelines (p < 0.01). Additional experiments evaluated robustness across spinal levels, acquisition resolutions, binarization thresholds, and quantitative evaluation on external labeled datasets. Conclusions: The proposed model can achieve accurate and reliable spinal cord MS lesion segmentation across heterogeneous MRI data, addressing a key barrier to clinical translation. The model is available in the Spinal Cord Toolbox v7.2 and higher.

AB - Background/Objectives: Characterizing spinal cord multiple sclerosis (MS) lesions in MRI is critical for diagnosis, monitoring, and treatment evaluation. However, current automated approaches for lesion detection and segmentation are typically designed for specific MRI contrasts or acquisition sites, limiting their generalizability in real-world clinical settings where imaging protocols vary widely. This work proposes a robust multi-site, multi-contrast segmentation framework for spinal cord lesions. Methods: The segmentation model was trained and evaluated on a large-scale dataset comprising 4428 annotated images from 1849 persons with MS across 23 imaging centers, encompassing six MRI contrasts (T1w, T2w, T2*w, PSIR, STIR, and UNIT1) acquired at 1.5 tesla (T), 3 T, and 7 T. Results: Likert-type assessment performed by neuroradiologist ratings demonstrated superior generalization of the model compared to existing contrast-specific pipelines (p < 0.01). Additional experiments evaluated robustness across spinal levels, acquisition resolutions, binarization thresholds, and quantitative evaluation on external labeled datasets. Conclusions: The proposed model can achieve accurate and reliable spinal cord MS lesion segmentation across heterogeneous MRI data, addressing a key barrier to clinical translation. The model is available in the Spinal Cord Toolbox v7.2 and higher.

KW - MRI

KW - Spinal cord

KW - deep learning

KW - lesion

KW - magnetic resonance imaging

KW - multiple sclerosis

KW - segmentation

UR - https://www.scopus.com/pages/publications/105036835598

U2 - 10.1177/13524585261427333

DO - 10.1177/13524585261427333

M3 - Journal Article

C2 - 42028790

AN - SCOPUS:105036835598

SN - 1352-4585

JO - Multiple Sclerosis Journal

JF - Multiple Sclerosis Journal

ER -