Brief electrical stimulation promotes the speed and accuracy of motor axonal regeneration

Abdulhakeem A. Al-Majed, Catherine M. Neumann, Thomas M. Brushart, Tessa Gordon

Research output: Contribution to journalArticlepeer-review

544 Scopus citations


Functional recovery is often poor despite the capacity for axonal regeneration in the peripheral nervous system and advances in microsurgical technique. Regeneration of axons in mixed nerve into inappropriate pathways is a major contributing factor to this failure. In this study, we use the rat femoral nerve model of transection and surgical repair to evaluate (1) the effect of nerve transection on the speed of regeneration and the generation of motor-sensory specificity, (2) the efficacy of electrical stimulation in accelerating axonal regeneration and promoting the reinnervation of appropriate muscle pathways by femoral motor nerves, and (3) the mechanism of action of electrical stimulation. Using the retrograde neurotracers fluorogold and fluororuby to backlabel motoneurons that regenerate axons into muscle and cutaneous pathways, we found the following. (1) There is a very protracted period (10 weeks) of axonal outgrowth that adds substantially to the delay in axonal regeneration (staggered regeneration). This process of staggered regeneration is associated with preferential motor reinnervation (PMR). (2) One hour to 2 weeks of 20 Hz continuous electrical stimulation of the parent axons proximal to the repair site dramatically reduces this period (to 3 weeks) and accelerates PMR. (3) The positive effect of short-term electrical stimulation is mediated via the cell body, implicating an enhanced growth program. The effectiveness of such a short-period low-frequency electrical stimulation suggests a new therapeutic approach to accelerate nerve regeneration after injury and, in turn, improve functional recovery.

Original languageEnglish (US)
Pages (from-to)2602-2608
Number of pages7
JournalJournal of Neuroscience
Issue number7
StatePublished - Apr 1 2000


  • Electrical stimulation
  • Motoneuron
  • PMR
  • Retrograde labeling
  • Staggered regeneration
  • TTX

ASJC Scopus subject areas

  • General Neuroscience


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