Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI

Limitations in the accuracy of brain pathways reconstructed by diffusion MRI (dMRI) tractography have received considerable attention. While the technical advances spearheaded by the Human Connectome Project (HCP) led to significant improvements in dMRI data quality, it remains unclear how these dat...

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Autores principales: Maffei, Chiara, Girard, Gabriel, Schilling, Kurt G., Aydogan, Dogu Baran, Adluru, Nagesh, Zhylka, Andrey, Wu, Ye, Mancini, Matteo, Hamamci, Andac, Sarica, Alessia, Teillac, Achille, Baete, Steven H., Karimi, Davood, Yeh, Fang-Cheng, Yildiz, Mert E., Gholipour, Ali, Bihan-Poudec, Yann, Hiba, Bassem, Quattrone, Andrea, Quattrone, Aldo, Boshkovski, Tommy, Stikov, Nikola, Yap, Pew-Thian, de Luca, Alberto, Pluim, Josien, Leemans, Alexander, Prabhakaran, Vivek, Bendlin, Barbara B., Alexander, Andrew L., Landman, Bennett A., Canales-Rodríguez, Erick J., Barakovic, Muhamed, Rafael-Patino, Jonathan, Yu, Thomas, Rensonnet, Gaëtan, Schiavi, Simona, Daducci, Alessandro, Pizzolato, Marco, Fischi-Gomez, Elda, Thiran, Jean-Philippe, Dai, George, Grisot, Giorgia, Lazovski, Nikola, Puch, Santi, Ramos, Marc, Rodrigues, Paulo, Prčkovska, Vesna, Jones, Robert, Lehman, Julia, Haber, Suzanne N., Yendiki, Anastasia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9453851/
https://www.ncbi.nlm.nih.gov/pubmed/35636227
http://dx.doi.org/10.1016/j.neuroimage.2022.119327
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author Maffei, Chiara
Girard, Gabriel
Schilling, Kurt G.
Aydogan, Dogu Baran
Adluru, Nagesh
Zhylka, Andrey
Wu, Ye
Mancini, Matteo
Hamamci, Andac
Sarica, Alessia
Teillac, Achille
Baete, Steven H.
Karimi, Davood
Yeh, Fang-Cheng
Yildiz, Mert E.
Gholipour, Ali
Bihan-Poudec, Yann
Hiba, Bassem
Quattrone, Andrea
Quattrone, Aldo
Boshkovski, Tommy
Stikov, Nikola
Yap, Pew-Thian
de Luca, Alberto
Pluim, Josien
Leemans, Alexander
Prabhakaran, Vivek
Bendlin, Barbara B.
Alexander, Andrew L.
Landman, Bennett A.
Canales-Rodríguez, Erick J.
Barakovic, Muhamed
Rafael-Patino, Jonathan
Yu, Thomas
Rensonnet, Gaëtan
Schiavi, Simona
Daducci, Alessandro
Pizzolato, Marco
Fischi-Gomez, Elda
Thiran, Jean-Philippe
Dai, George
Grisot, Giorgia
Lazovski, Nikola
Puch, Santi
Ramos, Marc
Rodrigues, Paulo
Prčkovska, Vesna
Jones, Robert
Lehman, Julia
Haber, Suzanne N.
Yendiki, Anastasia
author_facet Maffei, Chiara
Girard, Gabriel
Schilling, Kurt G.
Aydogan, Dogu Baran
Adluru, Nagesh
Zhylka, Andrey
Wu, Ye
Mancini, Matteo
Hamamci, Andac
Sarica, Alessia
Teillac, Achille
Baete, Steven H.
Karimi, Davood
Yeh, Fang-Cheng
Yildiz, Mert E.
Gholipour, Ali
Bihan-Poudec, Yann
Hiba, Bassem
Quattrone, Andrea
Quattrone, Aldo
Boshkovski, Tommy
Stikov, Nikola
Yap, Pew-Thian
de Luca, Alberto
Pluim, Josien
Leemans, Alexander
Prabhakaran, Vivek
Bendlin, Barbara B.
Alexander, Andrew L.
Landman, Bennett A.
Canales-Rodríguez, Erick J.
Barakovic, Muhamed
Rafael-Patino, Jonathan
Yu, Thomas
Rensonnet, Gaëtan
Schiavi, Simona
Daducci, Alessandro
Pizzolato, Marco
Fischi-Gomez, Elda
Thiran, Jean-Philippe
Dai, George
Grisot, Giorgia
Lazovski, Nikola
Puch, Santi
Ramos, Marc
Rodrigues, Paulo
Prčkovska, Vesna
Jones, Robert
Lehman, Julia
Haber, Suzanne N.
Yendiki, Anastasia
author_sort Maffei, Chiara
collection PubMed
description Limitations in the accuracy of brain pathways reconstructed by diffusion MRI (dMRI) tractography have received considerable attention. While the technical advances spearheaded by the Human Connectome Project (HCP) led to significant improvements in dMRI data quality, it remains unclear how these data should be analyzed to maximize tractography accuracy. Over a period of two years, we have engaged the dMRI community in the IronTract Challenge, which aims to answer this question by leveraging a unique dataset. Macaque brains that have received both tracer injections and ex vivo dMRI at high spatial and angular resolution allow a comprehensive, quantitative assessment of tractography accuracy on state-of-the-art dMRI acquisition schemes. We find that, when analysis methods are carefully optimized, the HCP scheme can achieve similar accuracy as a more time-consuming, Cartesian-grid scheme. Importantly, we show that simple pre- and post-processing strategies can improve the accuracy and robustness of many tractography methods. Finally, we find that fiber configurations that go beyond crossing (e.g., fanning, branching) are the most challenging for tractography. The IronTract Challenge remains open and we hope that it can serve as a valuable validation tool for both users and developers of dMRI analysis methods.
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spelling pubmed-94538512022-09-08 Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI Maffei, Chiara Girard, Gabriel Schilling, Kurt G. Aydogan, Dogu Baran Adluru, Nagesh Zhylka, Andrey Wu, Ye Mancini, Matteo Hamamci, Andac Sarica, Alessia Teillac, Achille Baete, Steven H. Karimi, Davood Yeh, Fang-Cheng Yildiz, Mert E. Gholipour, Ali Bihan-Poudec, Yann Hiba, Bassem Quattrone, Andrea Quattrone, Aldo Boshkovski, Tommy Stikov, Nikola Yap, Pew-Thian de Luca, Alberto Pluim, Josien Leemans, Alexander Prabhakaran, Vivek Bendlin, Barbara B. Alexander, Andrew L. Landman, Bennett A. Canales-Rodríguez, Erick J. Barakovic, Muhamed Rafael-Patino, Jonathan Yu, Thomas Rensonnet, Gaëtan Schiavi, Simona Daducci, Alessandro Pizzolato, Marco Fischi-Gomez, Elda Thiran, Jean-Philippe Dai, George Grisot, Giorgia Lazovski, Nikola Puch, Santi Ramos, Marc Rodrigues, Paulo Prčkovska, Vesna Jones, Robert Lehman, Julia Haber, Suzanne N. Yendiki, Anastasia Neuroimage Article Limitations in the accuracy of brain pathways reconstructed by diffusion MRI (dMRI) tractography have received considerable attention. While the technical advances spearheaded by the Human Connectome Project (HCP) led to significant improvements in dMRI data quality, it remains unclear how these data should be analyzed to maximize tractography accuracy. Over a period of two years, we have engaged the dMRI community in the IronTract Challenge, which aims to answer this question by leveraging a unique dataset. Macaque brains that have received both tracer injections and ex vivo dMRI at high spatial and angular resolution allow a comprehensive, quantitative assessment of tractography accuracy on state-of-the-art dMRI acquisition schemes. We find that, when analysis methods are carefully optimized, the HCP scheme can achieve similar accuracy as a more time-consuming, Cartesian-grid scheme. Importantly, we show that simple pre- and post-processing strategies can improve the accuracy and robustness of many tractography methods. Finally, we find that fiber configurations that go beyond crossing (e.g., fanning, branching) are the most challenging for tractography. The IronTract Challenge remains open and we hope that it can serve as a valuable validation tool for both users and developers of dMRI analysis methods. 2022-08-15 2022-05-26 /pmc/articles/PMC9453851/ /pubmed/35636227 http://dx.doi.org/10.1016/j.neuroimage.2022.119327 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) )
spellingShingle Article
Maffei, Chiara
Girard, Gabriel
Schilling, Kurt G.
Aydogan, Dogu Baran
Adluru, Nagesh
Zhylka, Andrey
Wu, Ye
Mancini, Matteo
Hamamci, Andac
Sarica, Alessia
Teillac, Achille
Baete, Steven H.
Karimi, Davood
Yeh, Fang-Cheng
Yildiz, Mert E.
Gholipour, Ali
Bihan-Poudec, Yann
Hiba, Bassem
Quattrone, Andrea
Quattrone, Aldo
Boshkovski, Tommy
Stikov, Nikola
Yap, Pew-Thian
de Luca, Alberto
Pluim, Josien
Leemans, Alexander
Prabhakaran, Vivek
Bendlin, Barbara B.
Alexander, Andrew L.
Landman, Bennett A.
Canales-Rodríguez, Erick J.
Barakovic, Muhamed
Rafael-Patino, Jonathan
Yu, Thomas
Rensonnet, Gaëtan
Schiavi, Simona
Daducci, Alessandro
Pizzolato, Marco
Fischi-Gomez, Elda
Thiran, Jean-Philippe
Dai, George
Grisot, Giorgia
Lazovski, Nikola
Puch, Santi
Ramos, Marc
Rodrigues, Paulo
Prčkovska, Vesna
Jones, Robert
Lehman, Julia
Haber, Suzanne N.
Yendiki, Anastasia
Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title_full Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title_fullStr Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title_full_unstemmed Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title_short Insights from the IronTract challenge: Optimal methods for mapping brain pathways from multi-shell diffusion MRI
title_sort insights from the irontract challenge: optimal methods for mapping brain pathways from multi-shell diffusion mri
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9453851/
https://www.ncbi.nlm.nih.gov/pubmed/35636227
http://dx.doi.org/10.1016/j.neuroimage.2022.119327
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