Disentangling poststroke cognitive deficits and their neuroanatomical correlates through combined multivariable and multioutcome lesion‐symptom mapping
Studies in patients with brain lesions play a fundamental role in unraveling the brain's functional anatomy. Lesion‐symptom mapping (LSM) techniques can relate lesion location to cognitive performance. However, a limitation of current LSM approaches is that they can only evaluate one cognitive...
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| Published in | Human brain mapping Vol. 44; no. 6; pp. 2266 - 2278 |
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| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken, USA
John Wiley & Sons, Inc
15.04.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1065-9471 1097-0193 1097-0193 |
| DOI | 10.1002/hbm.26208 |
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| Abstract | Studies in patients with brain lesions play a fundamental role in unraveling the brain's functional anatomy. Lesion‐symptom mapping (LSM) techniques can relate lesion location to cognitive performance. However, a limitation of current LSM approaches is that they can only evaluate one cognitive outcome at a time, without considering interdependencies between different cognitive tests. To overcome this challenge, we implemented canonical correlation analysis (CCA) as combined multivariable and multioutcome LSM approach. We performed a proof‐of‐concept study on 1075 patients with acute ischemic stroke to explore whether addition of CCA to a multivariable single‐outcome LSM approach (support vector regression) could identify infarct locations associated with deficits in three well‐defined verbal memory functions (encoding, consolidation, retrieval) based on four verbal memory subscores derived from the Seoul Verbal Learning Test (immediate recall, delayed recall, recognition, learning ability). We evaluated whether CCA could extract cognitive score patterns that matched prior knowledge of these verbal memory functions, and if these patterns could be linked to more specific infarct locations than through single‐outcome LSM alone. Two of the canonical modes identified with CCA showed distinct cognitive patterns that matched prior knowledge on encoding and consolidation. In addition, CCA revealed that each canonical mode was linked to a distinct infarct pattern, while with multivariable single‐outcome LSM individual verbal memory subscores were associated with largely overlapping patterns. In conclusion, our findings demonstrate that CCA can complement single‐outcome LSM techniques to help disentangle cognitive functions and their neuroanatomical correlates. |
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| AbstractList | Studies in patients with brain lesions play a fundamental role in unraveling the brain's functional anatomy. Lesion‐symptom mapping (LSM) techniques can relate lesion location to cognitive performance. However, a limitation of current LSM approaches is that they can only evaluate one cognitive outcome at a time, without considering interdependencies between different cognitive tests. To overcome this challenge, we implemented canonical correlation analysis (CCA) as combined multivariable and multioutcome LSM approach. We performed a proof‐of‐concept study on 1075 patients with acute ischemic stroke to explore whether addition of CCA to a multivariable single‐outcome LSM approach (support vector regression) could identify infarct locations associated with deficits in three well‐defined verbal memory functions (encoding, consolidation, retrieval) based on four verbal memory subscores derived from the Seoul Verbal Learning Test (immediate recall, delayed recall, recognition, learning ability). We evaluated whether CCA could extract cognitive score patterns that matched prior knowledge of these verbal memory functions, and if these patterns could be linked to more specific infarct locations than through single‐outcome LSM alone. Two of the canonical modes identified with CCA showed distinct cognitive patterns that matched prior knowledge on encoding and consolidation. In addition, CCA revealed that each canonical mode was linked to a distinct infarct pattern, while with multivariable single‐outcome LSM individual verbal memory subscores were associated with largely overlapping patterns. In conclusion, our findings demonstrate that CCA can complement single‐outcome LSM techniques to help disentangle cognitive functions and their neuroanatomical correlates. Studies in patients with brain lesions play a fundamental role in unraveling the brain's functional anatomy. Lesion-symptom mapping (LSM) techniques can relate lesion location to cognitive performance. However, a limitation of current LSM approaches is that they can only evaluate one cognitive outcome at a time, without considering interdependencies between different cognitive tests. To overcome this challenge, we implemented canonical correlation analysis (CCA) as combined multivariable and multioutcome LSM approach. We performed a proof-of-concept study on 1075 patients with acute ischemic stroke to explore whether addition of CCA to a multivariable single-outcome LSM approach (support vector regression) could identify infarct locations associated with deficits in three well-defined verbal memory functions (encoding, consolidation, retrieval) based on four verbal memory subscores derived from the Seoul Verbal Learning Test (immediate recall, delayed recall, recognition, learning ability). We evaluated whether CCA could extract cognitive score patterns that matched prior knowledge of these verbal memory functions, and if these patterns could be linked to more specific infarct locations than through single-outcome LSM alone. Two of the canonical modes identified with CCA showed distinct cognitive patterns that matched prior knowledge on encoding and consolidation. In addition, CCA revealed that each canonical mode was linked to a distinct infarct pattern, while with multivariable single-outcome LSM individual verbal memory subscores were associated with largely overlapping patterns. In conclusion, our findings demonstrate that CCA can complement single-outcome LSM techniques to help disentangle cognitive functions and their neuroanatomical correlates.Studies in patients with brain lesions play a fundamental role in unraveling the brain's functional anatomy. Lesion-symptom mapping (LSM) techniques can relate lesion location to cognitive performance. However, a limitation of current LSM approaches is that they can only evaluate one cognitive outcome at a time, without considering interdependencies between different cognitive tests. To overcome this challenge, we implemented canonical correlation analysis (CCA) as combined multivariable and multioutcome LSM approach. We performed a proof-of-concept study on 1075 patients with acute ischemic stroke to explore whether addition of CCA to a multivariable single-outcome LSM approach (support vector regression) could identify infarct locations associated with deficits in three well-defined verbal memory functions (encoding, consolidation, retrieval) based on four verbal memory subscores derived from the Seoul Verbal Learning Test (immediate recall, delayed recall, recognition, learning ability). We evaluated whether CCA could extract cognitive score patterns that matched prior knowledge of these verbal memory functions, and if these patterns could be linked to more specific infarct locations than through single-outcome LSM alone. Two of the canonical modes identified with CCA showed distinct cognitive patterns that matched prior knowledge on encoding and consolidation. In addition, CCA revealed that each canonical mode was linked to a distinct infarct pattern, while with multivariable single-outcome LSM individual verbal memory subscores were associated with largely overlapping patterns. In conclusion, our findings demonstrate that CCA can complement single-outcome LSM techniques to help disentangle cognitive functions and their neuroanatomical correlates. |
| Author | Biesbroek, Johannes Matthijs Huenges Wajer, Irene M. C. Mamdani, Muhammad Hasnain Biessels, Geert Jan Kim, Beom Joon Weaver, Nick A. Lee, Keon‐Joo Bzdok, Danilo Kang, Yeonwook Bae, Hee‐Joon Lee, Byung‐Chul Lim, Jae‐Sung Yu, Kyung‐Ho Kuijf, Hugo J. |
| AuthorAffiliation | 4 Experimental Psychology Helmholtz Institute, Utrecht University Utrecht The Netherlands 7 Department of Neurology Seoul National University Bundang Hospital, Seoul National University College of Medicine Seongnam Republic of Korea 6 Department of Psychology Hallym University Chuncheon Republic of Korea 9 Mila—Quebec Artificial Intelligence Institute Montreal Canada 1 Department of Neurology and Neurosurgery UMC Utrecht Brain Center Utrecht The Netherlands 3 Department of Neurology, Asan Medical Center University of Ulsan College of Medicine Seoul Republic of Korea 5 Department of Neurology Hallym University Sacred Heart Hospital, Hallym Neurological Institute, Hallym University College of Medicine Anyang Republic of Korea 2 Department of Biomedical Engineering, Faculty of Medicine, McConnell Brain Imaging Centre, School of Computer Science Montreal Neurological Institute (MNI), McGill University Montreal Canada 10 Image Sciences Institute University Medical Center Utrecht Utrecht The Netherl |
| AuthorAffiliation_xml | – name: 1 Department of Neurology and Neurosurgery UMC Utrecht Brain Center Utrecht The Netherlands – name: 6 Department of Psychology Hallym University Chuncheon Republic of Korea – name: 7 Department of Neurology Seoul National University Bundang Hospital, Seoul National University College of Medicine Seongnam Republic of Korea – name: 3 Department of Neurology, Asan Medical Center University of Ulsan College of Medicine Seoul Republic of Korea – name: 4 Experimental Psychology Helmholtz Institute, Utrecht University Utrecht The Netherlands – name: 5 Department of Neurology Hallym University Sacred Heart Hospital, Hallym Neurological Institute, Hallym University College of Medicine Anyang Republic of Korea – name: 9 Mila—Quebec Artificial Intelligence Institute Montreal Canada – name: 2 Department of Biomedical Engineering, Faculty of Medicine, McConnell Brain Imaging Centre, School of Computer Science Montreal Neurological Institute (MNI), McGill University Montreal Canada – name: 8 Department of Neurology Korea University Guro Hospital Seoul Republic of Korea – name: 10 Image Sciences Institute University Medical Center Utrecht Utrecht The Netherlands |
| Author_xml | – sequence: 1 givenname: Nick A. orcidid: 0000-0001-8425-8436 surname: Weaver fullname: Weaver, Nick A. email: n.a.weaver@umcutrecht.nl organization: UMC Utrecht Brain Center – sequence: 2 givenname: Muhammad Hasnain surname: Mamdani fullname: Mamdani, Muhammad Hasnain organization: Montreal Neurological Institute (MNI), McGill University – sequence: 3 givenname: Jae‐Sung orcidid: 0000-0001-6157-2908 surname: Lim fullname: Lim, Jae‐Sung organization: University of Ulsan College of Medicine – sequence: 4 givenname: Johannes Matthijs orcidid: 0000-0001-7017-2148 surname: Biesbroek fullname: Biesbroek, Johannes Matthijs organization: UMC Utrecht Brain Center – sequence: 5 givenname: Geert Jan orcidid: 0000-0001-6862-2496 surname: Biessels fullname: Biessels, Geert Jan organization: UMC Utrecht Brain Center – sequence: 6 givenname: Irene M. C. surname: Huenges Wajer fullname: Huenges Wajer, Irene M. C. organization: Helmholtz Institute, Utrecht University – sequence: 7 givenname: Yeonwook surname: Kang fullname: Kang, Yeonwook organization: Hallym University – sequence: 8 givenname: Beom Joon surname: Kim fullname: Kim, Beom Joon organization: Seoul National University Bundang Hospital, Seoul National University College of Medicine – sequence: 9 givenname: Byung‐Chul surname: Lee fullname: Lee, Byung‐Chul organization: Hallym University Sacred Heart Hospital, Hallym Neurological Institute, Hallym University College of Medicine – sequence: 10 givenname: Keon‐Joo surname: Lee fullname: Lee, Keon‐Joo organization: Korea University Guro Hospital – sequence: 11 givenname: Kyung‐Ho surname: Yu fullname: Yu, Kyung‐Ho organization: Hallym University Sacred Heart Hospital, Hallym Neurological Institute, Hallym University College of Medicine – sequence: 12 givenname: Hee‐Joon orcidid: 0000-0003-0051-1997 surname: Bae fullname: Bae, Hee‐Joon organization: Seoul National University Bundang Hospital, Seoul National University College of Medicine – sequence: 13 givenname: Danilo orcidid: 0000-0003-3466-6620 surname: Bzdok fullname: Bzdok, Danilo organization: Mila—Quebec Artificial Intelligence Institute – sequence: 14 givenname: Hugo J. orcidid: 0000-0001-6997-9059 surname: Kuijf fullname: Kuijf, Hugo J. organization: University Medical Center Utrecht |
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| Keywords | support vector regression verbal memory lesion location lesion-symptom mapping cognitive impairment canonical correlation analysis pattern-learning algorithms ischemic stroke |
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| License | Attribution-NonCommercial 2023 The Authors. Human Brain Mapping published by Wiley Periodicals LLC. This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes. |
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| Notes | Danilo Bzdok and Hugo J. Kuijf contributed equally to this study. Funding information ZonMw, Grant/Award Number: 918.16.616; UMC Utrecht Brain Center; Brain Canada Foundation; Health Canada, National Institutes of Health, Grant/Award Numbers: NIH R01 R01DA053301‐01A1, NIH R01 AG068563A; Canadian Institute of Health Research (CHIR), Grant/Award Numbers: CIHR 470425, CIHR 438531; Healthy Brains Healthy Lives initiative (Canada First Research Excellence fund; Google (Research Award, Teaching Award); CIFAR Artificial Intelligence Chairs program (Canada Institute for Advanced Research); Dutch Heart Foundation, Grant/Award Number: 03‐004‐2021‐T043 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 Funding information ZonMw, Grant/Award Number: 918.16.616; UMC Utrecht Brain Center; Brain Canada Foundation; Health Canada, National Institutes of Health, Grant/Award Numbers: NIH R01 R01DA053301‐01A1, NIH R01 AG068563A; Canadian Institute of Health Research (CHIR), Grant/Award Numbers: CIHR 470425, CIHR 438531; Healthy Brains Healthy Lives initiative (Canada First Research Excellence fund; Google (Research Award, Teaching Award); CIFAR Artificial Intelligence Chairs program (Canada Institute for Advanced Research); Dutch Heart Foundation, Grant/Award Number: 03‐004‐2021‐T043 |
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| SubjectTerms | Anatomy Brain Brain architecture Brain mapping Brain Mapping - methods canonical correlation analysis Cognition Cognition Disorders - complications Cognitive ability cognitive impairment Consolidation Correlation analysis Functional anatomy Humans Infarction - complications Ischemia ischemic stroke Ischemic Stroke - complications Learning lesion location Lesions lesion‐symptom mapping Magnetic resonance imaging Mapping Memory Neuropsychological Tests Neuropsychology Patients pattern‐learning algorithms Recall Registration Stroke Stroke - complications Stroke - diagnostic imaging Stroke - pathology Support vector machines support vector regression Verbal learning verbal memory |
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| Title | Disentangling poststroke cognitive deficits and their neuroanatomical correlates through combined multivariable and multioutcome lesion‐symptom mapping |
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