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The Journal of Neurophysiology Vol. 87 No. 4 April 2002, pp. 2195-2199
Copyright ©2002 by the American Physiological Society
RAPID COMMUNICATION
Department of Otolaryngology-Head and Neck Surgery, Vanderbilt University, Nashville, Tennessee 37232
Zealear, David L.,
Ricardo J. Rodriguez,
Thomas Kenny,
Mark
J. Billante,
Young Cho,
Cheryl
R. Billante, and
Kurt C. Garren.
Electrical Stimulation of a Denervated Muscle Promotes Selective
Reinnervation by Native Over Foreign Motoneurons. J. Neurophysiol. 87: 2195-2199, 2002. The
effect of electrical stimulation of the denervated posterior
cricoarytenoid (PCA) muscle on its subsequent reinnervation was
explored in the canine. Eight animals were implanted with a planar
array of 36 electrodes for chronic stimulation and recording of
spontaneous and evoked electromyographic (EMG) potentials across the
entire fan-shaped surface of a muscle pair. Normative EMG data were
recorded from each electrode site before unilateral nerve section, and
from the innervated partner after nerve section. After randomizing the
animals to experimental and control groups, the right recurrent
laryngeal nerve innervating the PCA abductor muscle and its adductor
antagonists was sectioned and reanastomosed. The PCA muscle in four
experimental animals was continuously stimulated during the 11-mo
experiment, using a 1-s, 30-pps, biphasic pulse train composed of 1-ms
pulses 2-6 mA in amplitude and repeated every 10 s. The remaining
four animals served as nonstimulated controls. Appropriate
reinnervation by native inspiratory motoneurons was indexed
behaviorally by the magnitude of vocal fold opening and
electromyographically by the potential across all electrode sites.
Inappropriate reinnervation by foreign adductor motoneurons was
quantitated by recording EMG potentials evoked reflexly by stimulation
of sensory afferents of the laryngeal mucosa. All four experimental
animals showed a greater level of correct PCA muscle reinnervation
(P < 0.0064) and a lesser level of incorrect reinnervation (P < 0.0084) than the controls. Direct
muscle stimulation also appeared to enhance the overall magnitude of
reinnervation, but the effect was not as strong (P < 0.113). These findings are consistent with a previous report and
suggest that stimulation of a mammalian muscle may profoundly affect
its receptivity to reinnervation by a particular motoneuron type.
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