MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes

OBJECTIVE: Neuroimaging measurements of brain structural integrity are thought to be surrogates for brain health, but precise assessments require dedicated advanced image acquisitions. By means of quantitatively describing conventional images, radiomic analyses hold potential for evaluating brain he...

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Autores principales: Bretzner, Martin, Bonkhoff, Anna K., Schirmer, Markus D., Hong, Sungmin, Dalca, Adrian V., Donahue, Kathleen L., Giese, Anne-Katrin, Etherton, Mark R., Rist, Pamela M., Nardin, Marco, Marinescu, Razvan, Wang, Clinton, Regenhardt, Robert W., Leclerc, Xavier, Lopes, Renaud, Benavente, Oscar R., Cole, John W., Donatti, Amanda, Griessenauer, Christoph J., Heitsch, Laura, Holmegaard, Lukas, Jood, Katarina, Jimenez-Conde, Jordi, Kittner, Steven J., Lemmens, Robin, Levi, Christopher R., McArdle, Patrick F., McDonough, Caitrin W., Meschia, James F., Phuah, Chia-Ling, Rolfs, Arndt, Ropele, Stefan, Rosand, Jonathan, Roquer, Jaume, Rundek, Tatjana, Sacco, Ralph L., Schmidt, Reinhold, Sharma, Pankaj, Slowik, Agnieszka, Sousa, Alessandro, Stanne, Tara M., Strbian, Daniel, Tatlisumak, Turgut, Thijs, Vincent, Vagal, Achala, Wasselius, Johan, Woo, Daniel, Wu, Ona, Zand, Ramin, Worrall, Bradford B., Maguire, Jane M., Lindgren, Arne, Jern, Christina, Golland, Polina, Kuchcinski, Grégory, Rost, Natalia S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8312571/
https://www.ncbi.nlm.nih.gov/pubmed/34321995
http://dx.doi.org/10.3389/fnins.2021.691244
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author Bretzner, Martin
Bonkhoff, Anna K.
Schirmer, Markus D.
Hong, Sungmin
Dalca, Adrian V.
Donahue, Kathleen L.
Giese, Anne-Katrin
Etherton, Mark R.
Rist, Pamela M.
Nardin, Marco
Marinescu, Razvan
Wang, Clinton
Regenhardt, Robert W.
Leclerc, Xavier
Lopes, Renaud
Benavente, Oscar R.
Cole, John W.
Donatti, Amanda
Griessenauer, Christoph J.
Heitsch, Laura
Holmegaard, Lukas
Jood, Katarina
Jimenez-Conde, Jordi
Kittner, Steven J.
Lemmens, Robin
Levi, Christopher R.
McArdle, Patrick F.
McDonough, Caitrin W.
Meschia, James F.
Phuah, Chia-Ling
Rolfs, Arndt
Ropele, Stefan
Rosand, Jonathan
Roquer, Jaume
Rundek, Tatjana
Sacco, Ralph L.
Schmidt, Reinhold
Sharma, Pankaj
Slowik, Agnieszka
Sousa, Alessandro
Stanne, Tara M.
Strbian, Daniel
Tatlisumak, Turgut
Thijs, Vincent
Vagal, Achala
Wasselius, Johan
Woo, Daniel
Wu, Ona
Zand, Ramin
Worrall, Bradford B.
Maguire, Jane M.
Lindgren, Arne
Jern, Christina
Golland, Polina
Kuchcinski, Grégory
Rost, Natalia S.
author_facet Bretzner, Martin
Bonkhoff, Anna K.
Schirmer, Markus D.
Hong, Sungmin
Dalca, Adrian V.
Donahue, Kathleen L.
Giese, Anne-Katrin
Etherton, Mark R.
Rist, Pamela M.
Nardin, Marco
Marinescu, Razvan
Wang, Clinton
Regenhardt, Robert W.
Leclerc, Xavier
Lopes, Renaud
Benavente, Oscar R.
Cole, John W.
Donatti, Amanda
Griessenauer, Christoph J.
Heitsch, Laura
Holmegaard, Lukas
Jood, Katarina
Jimenez-Conde, Jordi
Kittner, Steven J.
Lemmens, Robin
Levi, Christopher R.
McArdle, Patrick F.
McDonough, Caitrin W.
Meschia, James F.
Phuah, Chia-Ling
Rolfs, Arndt
Ropele, Stefan
Rosand, Jonathan
Roquer, Jaume
Rundek, Tatjana
Sacco, Ralph L.
Schmidt, Reinhold
Sharma, Pankaj
Slowik, Agnieszka
Sousa, Alessandro
Stanne, Tara M.
Strbian, Daniel
Tatlisumak, Turgut
Thijs, Vincent
Vagal, Achala
Wasselius, Johan
Woo, Daniel
Wu, Ona
Zand, Ramin
Worrall, Bradford B.
Maguire, Jane M.
Lindgren, Arne
Jern, Christina
Golland, Polina
Kuchcinski, Grégory
Rost, Natalia S.
author_sort Bretzner, Martin
collection PubMed
description OBJECTIVE: Neuroimaging measurements of brain structural integrity are thought to be surrogates for brain health, but precise assessments require dedicated advanced image acquisitions. By means of quantitatively describing conventional images, radiomic analyses hold potential for evaluating brain health. We sought to: (1) evaluate radiomics to assess brain structural integrity by predicting white matter hyperintensities burdens (WMH) and (2) uncover associations between predictive radiomic features and clinical phenotypes. METHODS: We analyzed a multi-site cohort of 4,163 acute ischemic strokes (AIS) patients with T2-FLAIR MR images with total brain and WMH segmentations. Radiomic features were extracted from normal-appearing brain tissue (brain mask–WMH mask). Radiomics-based prediction of personalized WMH burden was done using ElasticNet linear regression. We built a radiomic signature of WMH with stable selected features predictive of WMH burden and then related this signature to clinical variables using canonical correlation analysis (CCA). RESULTS: Radiomic features were predictive of WMH burden (R(2) = 0.855 ± 0.011). Seven pairs of canonical variates (CV) significantly correlated the radiomics signature of WMH and clinical traits with respective canonical correlations of 0.81, 0.65, 0.42, 0.24, 0.20, 0.15, and 0.15 (FDR-corrected p-values(CV)(1)(–)(6) < 0.001, p-value(CV)(7) = 0.012). The clinical CV1 was mainly influenced by age, CV2 by sex, CV3 by history of smoking and diabetes, CV4 by hypertension, CV5 by atrial fibrillation (AF) and diabetes, CV6 by coronary artery disease (CAD), and CV7 by CAD and diabetes. CONCLUSION: Radiomics extracted from T2-FLAIR images of AIS patients capture microstructural damage of the cerebral parenchyma and correlate with clinical phenotypes, suggesting different radiographical textural abnormalities per cardiovascular risk profile. Further research could evaluate radiomics to predict the progression of WMH and for the follow-up of stroke patients’ brain health.
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spelling pubmed-83125712021-07-27 MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes Bretzner, Martin Bonkhoff, Anna K. Schirmer, Markus D. Hong, Sungmin Dalca, Adrian V. Donahue, Kathleen L. Giese, Anne-Katrin Etherton, Mark R. Rist, Pamela M. Nardin, Marco Marinescu, Razvan Wang, Clinton Regenhardt, Robert W. Leclerc, Xavier Lopes, Renaud Benavente, Oscar R. Cole, John W. Donatti, Amanda Griessenauer, Christoph J. Heitsch, Laura Holmegaard, Lukas Jood, Katarina Jimenez-Conde, Jordi Kittner, Steven J. Lemmens, Robin Levi, Christopher R. McArdle, Patrick F. McDonough, Caitrin W. Meschia, James F. Phuah, Chia-Ling Rolfs, Arndt Ropele, Stefan Rosand, Jonathan Roquer, Jaume Rundek, Tatjana Sacco, Ralph L. Schmidt, Reinhold Sharma, Pankaj Slowik, Agnieszka Sousa, Alessandro Stanne, Tara M. Strbian, Daniel Tatlisumak, Turgut Thijs, Vincent Vagal, Achala Wasselius, Johan Woo, Daniel Wu, Ona Zand, Ramin Worrall, Bradford B. Maguire, Jane M. Lindgren, Arne Jern, Christina Golland, Polina Kuchcinski, Grégory Rost, Natalia S. Front Neurosci Neuroscience OBJECTIVE: Neuroimaging measurements of brain structural integrity are thought to be surrogates for brain health, but precise assessments require dedicated advanced image acquisitions. By means of quantitatively describing conventional images, radiomic analyses hold potential for evaluating brain health. We sought to: (1) evaluate radiomics to assess brain structural integrity by predicting white matter hyperintensities burdens (WMH) and (2) uncover associations between predictive radiomic features and clinical phenotypes. METHODS: We analyzed a multi-site cohort of 4,163 acute ischemic strokes (AIS) patients with T2-FLAIR MR images with total brain and WMH segmentations. Radiomic features were extracted from normal-appearing brain tissue (brain mask–WMH mask). Radiomics-based prediction of personalized WMH burden was done using ElasticNet linear regression. We built a radiomic signature of WMH with stable selected features predictive of WMH burden and then related this signature to clinical variables using canonical correlation analysis (CCA). RESULTS: Radiomic features were predictive of WMH burden (R(2) = 0.855 ± 0.011). Seven pairs of canonical variates (CV) significantly correlated the radiomics signature of WMH and clinical traits with respective canonical correlations of 0.81, 0.65, 0.42, 0.24, 0.20, 0.15, and 0.15 (FDR-corrected p-values(CV)(1)(–)(6) < 0.001, p-value(CV)(7) = 0.012). The clinical CV1 was mainly influenced by age, CV2 by sex, CV3 by history of smoking and diabetes, CV4 by hypertension, CV5 by atrial fibrillation (AF) and diabetes, CV6 by coronary artery disease (CAD), and CV7 by CAD and diabetes. CONCLUSION: Radiomics extracted from T2-FLAIR images of AIS patients capture microstructural damage of the cerebral parenchyma and correlate with clinical phenotypes, suggesting different radiographical textural abnormalities per cardiovascular risk profile. Further research could evaluate radiomics to predict the progression of WMH and for the follow-up of stroke patients’ brain health. Frontiers Media S.A. 2021-07-12 /pmc/articles/PMC8312571/ /pubmed/34321995 http://dx.doi.org/10.3389/fnins.2021.691244 Text en Copyright © 2021 Bretzner, Bonkhoff, Schirmer, Hong, Dalca, Donahue, Giese, Etherton, Rist, Nardin, Marinescu, Wang, Regenhardt, Leclerc, Lopes, Benavente, Cole, Donatti, Griessenauer, Heitsch, Holmegaard, Jood, Jimenez-Conde, Kittner, Lemmens, Levi, McArdle, McDonough, Meschia, Phuah, Rolfs, Ropele, Rosand, Roquer, Rundek, Sacco, Schmidt, Sharma, Slowik, Sousa, Stanne, Strbian, Tatlisumak, Thijs, Vagal, Wasselius, Woo, Wu, Zand, Worrall, Maguire, Lindgren, Jern, Golland, Kuchcinski and Rost. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neuroscience
Bretzner, Martin
Bonkhoff, Anna K.
Schirmer, Markus D.
Hong, Sungmin
Dalca, Adrian V.
Donahue, Kathleen L.
Giese, Anne-Katrin
Etherton, Mark R.
Rist, Pamela M.
Nardin, Marco
Marinescu, Razvan
Wang, Clinton
Regenhardt, Robert W.
Leclerc, Xavier
Lopes, Renaud
Benavente, Oscar R.
Cole, John W.
Donatti, Amanda
Griessenauer, Christoph J.
Heitsch, Laura
Holmegaard, Lukas
Jood, Katarina
Jimenez-Conde, Jordi
Kittner, Steven J.
Lemmens, Robin
Levi, Christopher R.
McArdle, Patrick F.
McDonough, Caitrin W.
Meschia, James F.
Phuah, Chia-Ling
Rolfs, Arndt
Ropele, Stefan
Rosand, Jonathan
Roquer, Jaume
Rundek, Tatjana
Sacco, Ralph L.
Schmidt, Reinhold
Sharma, Pankaj
Slowik, Agnieszka
Sousa, Alessandro
Stanne, Tara M.
Strbian, Daniel
Tatlisumak, Turgut
Thijs, Vincent
Vagal, Achala
Wasselius, Johan
Woo, Daniel
Wu, Ona
Zand, Ramin
Worrall, Bradford B.
Maguire, Jane M.
Lindgren, Arne
Jern, Christina
Golland, Polina
Kuchcinski, Grégory
Rost, Natalia S.
MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title_full MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title_fullStr MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title_full_unstemmed MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title_short MRI Radiomic Signature of White Matter Hyperintensities Is Associated With Clinical Phenotypes
title_sort mri radiomic signature of white matter hyperintensities is associated with clinical phenotypes
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8312571/
https://www.ncbi.nlm.nih.gov/pubmed/34321995
http://dx.doi.org/10.3389/fnins.2021.691244
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