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Sensory nerve regeneration and reinnervation in muscle following peripheral nerve injury

Sensory afferent fibers are an important component of motor nerves and compose the majority of axons in many nerves traditionally thought of as “pure” motor nerves. These sensory afferent fibers innervate special sensory end organs in muscle, including muscle spindles that respond to changes in musc...

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Bibliographic Details
Published in:Muscle & nerve 2022-10, Vol.66 (4), p.384-396
Main Authors: Adidharma, Widya, Khouri, Alexander N., Lee, Jennifer C., Vanderboll, Kathryn, Kung, Theodore A., Cederna, Paul S., Kemp, Stephen W. P.
Format: Article
Language:English
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Summary:Sensory afferent fibers are an important component of motor nerves and compose the majority of axons in many nerves traditionally thought of as “pure” motor nerves. These sensory afferent fibers innervate special sensory end organs in muscle, including muscle spindles that respond to changes in muscle length and Golgi tendons that detect muscle tension. Both play a major role in proprioception, sensorimotor extremity control feedback, and force regulation. After peripheral nerve injury, there is histological and electrophysiological evidence that sensory afferents can reinnervate muscle, including muscle that was not the nerve's original target. Reinnervation can occur after different nerve injury and muscle models, including muscle graft, crush, and transection injuries, and occurs in a nonspecific manner, allowing for cross‐innervation to occur. Evidence of cross‐innervation includes the following: muscle spindle and Golgi tendon afferent‐receptor mismatch, vagal sensory fiber reinnervation of muscle, and cutaneous afferent reinnervation of muscle spindle or Golgi tendons. There are several notable clinical applications of sensory reinnervation and cross‐reinnervation of muscle, including restoration of optimal motor control after peripheral nerve repair, flap sensation, sensory protection of denervated muscle, neuroma treatment and prevention, and facilitation of prosthetic sensorimotor control. This review focuses on sensory nerve regeneration and reinnervation in muscle, and the clinical applications of this phenomena. Understanding the physiology and limitations of sensory nerve regeneration and reinnervation in muscle may ultimately facilitate improvement of its clinical applications.
ISSN:0148-639X
1097-4598
DOI:10.1002/mus.27661