Long-term reorganization of human motor cortex driven by short-term sensory stimulation
Adult
Male
Brain Mapping
Neuronal Plasticity
Time Factors
Electromyography
Motor Cortex
Sensation
Middle Aged
Electric Stimulation
Deglutition
Magnetics
03 medical and health sciences
Esophagus
0302 clinical medicine
Reflex
Humans
Pharynx
Brain Stem
DOI:
10.1038/264
Publication Date:
2002-07-26T08:47:57Z
AUTHORS (5)
ABSTRACT
Removal of sensory input can induce changes in cortical motor representation that reverse when sensation is restored. Here we ask whether manipulation of sensory input can induce long-term reorganization in human motor cortex that outlasts the initial conditioning. We report that for at least 30 minutes after pharyngeal stimulation, motor cortex excitability and area of representation for the pharynx increased, while esophagus representation decreased, without parallel changes in the excitability of brainstem-mediated reflexes. Therefore increased sensory input can drive long-term cross-system changes in motor areas of the cerebral cortex, which suggests that sensory stimulation might rehabilitate dysphagia, a frequent consequence of cerebral injury.
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