Brain activation of lower extremity movement in chronically impaired stroke survivors
Brain activation of lower extremity movement in chronically impaired stroke survivors
Lower extremity paresis poses significant disability to chronic stroke survivors. Unlike for the upper extremity, cortical adaptations in networks controlling the paretic leg have not been characterized after stroke. Here, the hypotheses are that brain activation associated with unilateral knee movement in chronic stroke survivors is abnormal, depends on lesion location, and is related to walking ability. Functional magnetic resonance imaging of unilateral knee movement was obtained in 31 patients 26.9 months (mean, IQ range: 11.3–68.1) after stroke and in 10 age-matched healthy controls. Strokes were stratified according to lesion location. Locomotor disability (30 ft walking speed) did not differ between patient groups (9 cortical, 12 subcortical, 10 brainstem lesions). Significant differences in brain activation as measured by voxel counts in 10 regions of interest were found between controls and patients with brainstem (P = 0.006) and cortical strokes (P = 0.002), and between subcortical and cortical patients (P = 0.026). Statistical parametric mapping of data per group revealed similar activation patterns in subcortical patients and controls with recruitment of contralateral primary motor cortex (M1), supplementary motor area (SMA), and bilateral somatosensory area 2 (S2). Cortical recruitment was reduced in brainstem and cortical stroke. Better walking was associated with lesser contralateral sensorimotor cortex activation in brainstem, but stronger recruitment of ipsilateral sensorimotor and bilateral somatosensory cortices in subcortical and cortical patients, respectively. A post hoc comparison of brainstem patients with and without mirror movements (50%) revealed lesser recruitment of ipsilateral cerebellum in the latter. Subcortical patients with mirror movements (58%) showed lesser bilateral sensorimotor cortex activation. No cortical patient had mirror movements. The data reveal adaptations in networks controlling unilateral paretic knee movement in chronic stroke survivors. These adaptations depend on lesion location and seem to have functional relevance for locomotion
184-194
Luft, Andreas R.
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Forrester, Larry
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Macko, Richard F.
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McCombe-Waller, Sandy
6c931ed9-48d3-4356-9db7-790ad6d134ba
Whitall, Jill
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Villagra, Federico
81d1f3c5-309e-4154-94d7-0e50f6b788ce
Hanley, Daniel F.
eedff09c-b115-4f05-bd76-012397e1adbd
May 2005
Luft, Andreas R.
7d63411e-0ae7-4b6b-9455-b43ba702238c
Forrester, Larry
f4cb091c-9475-40df-a515-0207765cecf9
Macko, Richard F.
facb5e9c-e881-4d59-90d4-1a41509db2fe
McCombe-Waller, Sandy
6c931ed9-48d3-4356-9db7-790ad6d134ba
Whitall, Jill
9761aefb-be80-4270-bc1f-0e726399376e
Villagra, Federico
81d1f3c5-309e-4154-94d7-0e50f6b788ce
Hanley, Daniel F.
eedff09c-b115-4f05-bd76-012397e1adbd
Luft, Andreas R., Forrester, Larry, Macko, Richard F., McCombe-Waller, Sandy, Whitall, Jill, Villagra, Federico and Hanley, Daniel F.
(2005)
Brain activation of lower extremity movement in chronically impaired stroke survivors.
NeuroImage, 26 (1), .
(doi:10.1016/j.neuroimage.2005.01.027).
(PMID:15862218)
Abstract
Lower extremity paresis poses significant disability to chronic stroke survivors. Unlike for the upper extremity, cortical adaptations in networks controlling the paretic leg have not been characterized after stroke. Here, the hypotheses are that brain activation associated with unilateral knee movement in chronic stroke survivors is abnormal, depends on lesion location, and is related to walking ability. Functional magnetic resonance imaging of unilateral knee movement was obtained in 31 patients 26.9 months (mean, IQ range: 11.3–68.1) after stroke and in 10 age-matched healthy controls. Strokes were stratified according to lesion location. Locomotor disability (30 ft walking speed) did not differ between patient groups (9 cortical, 12 subcortical, 10 brainstem lesions). Significant differences in brain activation as measured by voxel counts in 10 regions of interest were found between controls and patients with brainstem (P = 0.006) and cortical strokes (P = 0.002), and between subcortical and cortical patients (P = 0.026). Statistical parametric mapping of data per group revealed similar activation patterns in subcortical patients and controls with recruitment of contralateral primary motor cortex (M1), supplementary motor area (SMA), and bilateral somatosensory area 2 (S2). Cortical recruitment was reduced in brainstem and cortical stroke. Better walking was associated with lesser contralateral sensorimotor cortex activation in brainstem, but stronger recruitment of ipsilateral sensorimotor and bilateral somatosensory cortices in subcortical and cortical patients, respectively. A post hoc comparison of brainstem patients with and without mirror movements (50%) revealed lesser recruitment of ipsilateral cerebellum in the latter. Subcortical patients with mirror movements (58%) showed lesser bilateral sensorimotor cortex activation. No cortical patient had mirror movements. The data reveal adaptations in networks controlling unilateral paretic knee movement in chronic stroke survivors. These adaptations depend on lesion location and seem to have functional relevance for locomotion
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Published date: May 2005
Organisations:
Faculty of Health Sciences
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Local EPrints ID: 361351
URI: http://eprints.soton.ac.uk/id/eprint/361351
PURE UUID: 743bb1f6-0620-4b44-a163-7330dd9216e7
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Date deposited: 17 Jan 2014 16:33
Last modified: 14 Mar 2024 15:49
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Author:
Andreas R. Luft
Author:
Larry Forrester
Author:
Richard F. Macko
Author:
Sandy McCombe-Waller
Author:
Jill Whitall
Author:
Federico Villagra
Author:
Daniel F. Hanley
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