2002
DOI: 10.1523/jneurosci.22-15-06631.2002
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Electrical Stimulation Promotes Motoneuron Regeneration without Increasing Its Speed or Conditioning the Neuron

Abstract: Motoneurons reinnervate the distal stump at variable rates after peripheral nerve transection and suture. In the rat femoral nerve model, reinnervation is already substantial 3 weeks after repair, but is not completed for an additional 7 weeks. However, this "staggered regeneration" can be temporally compressed by application of 20 Hz electrical stimulation to the nerve for 1 hr. The present experiments explore two possible mechanisms for this stimulation effect: (1) synchronization of distal stump reinnervati… Show more

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Cited by 390 publications
(313 citation statements)
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“…Following transection, axons show staggered regeneration and may take substantial time to actually cross the injury site and enter the distal nerve stump ( Brushart et al, 2002). Although delayed axonal elongation might be caused by growth inhibition originating from the distal nerve itself, growth-stimu-lating influences may overcome axons stagger.…”
Section: Groupmentioning
confidence: 99%
“…Following transection, axons show staggered regeneration and may take substantial time to actually cross the injury site and enter the distal nerve stump ( Brushart et al, 2002). Although delayed axonal elongation might be caused by growth inhibition originating from the distal nerve itself, growth-stimu-lating influences may overcome axons stagger.…”
Section: Groupmentioning
confidence: 99%
“…Electrical stimulation of lesioned femoral nerve promotes regeneration of lower motor neurons [123,124]. Brief stimulation of lesioned femoral nerves for 1 hour leads to a rapid increase in messenger RNA (mRNA) levels of BDNF and its complementary high affinity receptor trkB in the motor neurons that peaks 2 days poststimulation with maximum sixfold and fourfold increases, respectively, in comparison to contralateral intact motor neurons [25].…”
Section: Intrinsic Capacity To Regeneratementioning
confidence: 99%
“…Tissue engineering provides an alternative approach to study tissue regeneration by use and design of biomaterials to house cells and provide a three-dimensional structure to the growing cells. For the purpose of neurons, electrically-conducting polymers are of utmost importance as electrical stimulation has been shown to be most promising to enhance nerve regeneration [4][5][6][7][8][9] as well as for stimulation of neural stem cells [10][11][12] . Thus, fabrication of conducting bio-scaffolds is an important area of study.…”
Section: Graphical Abstract 1 Introductionmentioning
confidence: 99%