Driving plasticity in human adult motor cortex is associated with improved motor function after brain injury

Fraser, C; Power, ML; Hamdy, S; Rothwell, J; Hobday, D; Hollander, I; Tyrrell, PJ; Hobson, A; Williams, S; Thompson, DG

doi:10.1016/S0896-6273(02)00705-5

Driving plasticity in human adult motor cortex is associated with improved motor function after brain injury

Fraser, C; Power, ML; Hamdy, S; Rothwell, J; Hobday, D; Hollander, I; Tyrrell, PJ; Hobson, A; Williams, S; Thompson, DG

Authors

C Fraser

ML Power

S Hamdy

J Rothwell

D Hobday

I Hollander

PJ Tyrrell

A Hobson

S Williams

DG Thompson

Abstract

Changes in somatosensory input can remodel human cortical motor organization, yet the input characteristics that promote reorganization and their functional significance have not been explored. Here we show with transcranial magnetic stimulation that sensory-driven reorganization of human motor cortex is highly dependent upon the frequency, intensity, and duration of stimulus applied. Those patterns of input associated with enhanced excitability (5 Hz, 75% maximal tolerated intensity for 10 min) induce stronger cortical activation to fMRI. When applied to acutely dysphagic stroke patients, swallowing corticobulbar excitability is increased mainly in the undamaged hemisphere, being strongly correlated with an improvement in swallowing function. Thus, input to the human adult brain can be programmed to promote beneficial changes in neuroplasticity and function after cerebral injury.

Journal Article Type	Article
Publication Date	May 30, 2002
Deposit Date	Aug 10, 2007
Journal	Neuron
Print ISSN	0896-6273
Electronic ISSN	1097-4199
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	34
Issue	5
Pages	831-40
DOI	https://doi.org/10.1016/S0896-6273%2802%2900705-5
Publisher URL	http://dx.doi.org/10.1016/S0896-6273(02)00705-5

Authors

Abstract

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