Mechanisms Underlying Functional Recovery Following Stroke
- Review Article
Robert G Lee and Paul van Donkelaar
Abstract:
This article reviews recent evidence from animal experiments
indicating that there is considerable potential for reorganization
of representations and functions in sensory and motor cortex
following localized lesions or various manipulations of peripheral
target structures. Three major mechanisms for this plastic reorganization
are considered: unmasking of existing but functionally inactive
pathways, sprouting of fibers from surviving neurons and formation
of new synapses, and redundancy of CNS circuitry allowing alternative
pathways to take over functions. Studies using positron emission
tomography or transcranial magnetic stimulation suggest that
similar forms of neuroplasticity may occur in the human brain
and could contribute to functional recovery following stroke.
The potential therapeutic implications are discussed.
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Can.
J. Neurol. Sci. 1995; 22: 257-263
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