Responsiveness of the somatosensory system after nerve injury and amputation in the human hand

Responsiveness of the somatosensory system after nerve injury and amputation in the human hand

We studied the responsiveness of the somatosensory system in humans after prolonged deprivation of peripheral input. Eight patients with traumatic transection of the median or ulnar nerve and 6 patients with amputation of a finger or hand underwent microneurography and intraneural stimulation. Bundl...

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Bibliographic Details
Published in:Annals of neurology Vol. 36; no. 1; p. 68
Main Authors: Schady, W, Braune, S, Watson, S, Torebjörk, H E, Schmidt, R
Format: Journal Article
Language:English
Published: United States 01-07-1994
Subjects:
Adolescent
Adult
Aged
Amputation, Traumatic - physiopathology
Electric Stimulation
Finger Injuries - physiopathology
Fingers - innervation
Fingers - physiology
Hand - innervation
Hand - physiology
Hand Injuries - physiopathology
Humans
Male
Median Nerve - injuries
Median Nerve - physiology
Middle Aged
Nerve Regeneration - physiology
Neural Conduction - physiology
Neuronal Plasticity - physiology
Phantom Limb - physiopathology
Somatosensory Cortex - physiology
Ulnar Nerve - injuries
Ulnar Nerve - physiology
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Summary:We studied the responsiveness of the somatosensory system in humans after prolonged deprivation of peripheral input. Eight patients with traumatic transection of the median or ulnar nerve and 6 patients with amputation of a finger or hand underwent microneurography and intraneural stimulation. Bundles of nerve fibers were electrically stimulated through a microelectrode placed in the affected nerve proximally to the site of damage or in the case of amputees, in a nerve fascicle supplying the stump. During intraneural stimulation the subjects with nerve injuries reported distinct percepts in the hypoesthetic skin. Their projections were usually confined to the territory of a single or two adjacent palmar digital nerves, similar to the fascicular territories of healthy nerves in control subjects, but there was much less microneurographically recordable afferent activity than in normal subjects. In amputees intraneural stimulation evoked sensations in a phantom digit or digits in over three fourths of the fascicles studied. We conclude that (1) the somatosensory system remains able to process information from a nerve fascicle that has lost its cutaneous territory, and (2) somatosensory localization remains accurate despite the presumed central reorganization that takes place after nerve division or amputation. This lack of functional adaptation has important implications with regard to our understanding of human central nervous system plasticity.
ISSN:0364-5134
DOI:10.1002/ana.410360114