Non-invasive mapping of corticofugal fibres from multiple motor areas--relevance to stroke recovery

doi:10.1093/brain/awl106

Brain Advance Access published online on May 15, 2006
Brain, doi:10.1093/brain/awl106

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© The Author (2006). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received November 23, 2005
Revised February 3, 2006
Accepted March 30, 2006

Article

Non-invasive mapping of corticofugal fibres from multiple motor areas--relevance to stroke recovery

Jennifer M. Newton ¹ ^*, Nick S. Ward ², Geoffrey J. M. Parker ³, Ralf Deichmann ¹, Daniel C. Alexander ⁴, Karl J. Friston ¹, and Richard S. J. Frackowiak ⁵

¹ Wellcome Department of Imaging Neuroscience, University College London, London, UK
² Wellcome Department of Imaging Neuroscience, University College London, London, UK; Department of Headache, Brain Injury and Rehabilitation, Institute of Neurology, University College London, London, UK
³ Imaging Science & Biomedical Engineering, University of Manchester, Manchester, UK
⁴ Department of Computer Science, University College London, London, UK
⁵ Wellcome Department of Imaging Neuroscience, University College London, London, UK; IRRCS Santa Lucia, Rome, Italy; Département des études cognitives, Ecole Normale Supérieure, Paris, France

^* To whom correspondence should be addressed.
Jennifer M. Newton, E-mail: jennienewton{at}ucla.edu

Abstract

Recovery of motor function after subcortical stroke appearsto be related to the integrity of descending connections fromthe ipsilesional cortical motor system, a view supported bythe observation of greater than normal movement-related activationin ipsilesional motor regions in chronic subcortical strokepatients. This suggests that damage to the descending outputfibres from one region of the cortical motor system may be compensatedby activity in areas that retain corticofugal outputs. Thoughthe trajectories of corticofugal fibres from each major componentof the motor system through the corona radiata and internalcapsule are well described in non-human primates, they havenot been described fully in humans. Our study set out to mapthe trajectories of these connections in a group of healthyvolunteers (8 male, 4 female; age range = 31-68 years, median= 48.5 years) and establish whether this knowledge can be usedto assess stroke-induced disconnection of the cortical motorsystem and better interpret functional reorganization of thecortical motor system. We describe the trajectories of the connectionsfrom each major component of the motor system to the cerebralpeduncle using diffusion-weighted imaging and probabilistictractography in normal subjects. We observed good reproducibilityof these connections over subjects. The comparative topographyof these connections revealed many similarities between humansand other primates. We then inferred damage to corticofugalpathways in stroke patients (n = 3) by comparing the overlapbetween regions of subcortical white matter damage with thetrajectories of the connections to each motor area. In a smallseries of case studies, we found that inferred disconnectionscould explain enhanced hand-grip-related responses, as assessedwith functional MRI, in the ipsilesional motor system. Theseresults confirm that selective disruption of motor corticofugalfibres influences functional reorganization and outcome in individualpatients.

Keywords: diffusion tensor; tractography; stroke; motor recovery; functional MRI.

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