Literature DB >> 6616196

Electrical stimulation of regenerating nerve and its effect on motor recovery.

W A Nix, H C Hopf.   

Abstract

The rate of recovery of motor function, after axonotmesis of the motor nerve innervating the soleus muscle in the rabbit, was evaluated. In a chronic study over a period of 4 weeks, contraction parameters and muscle action potentials were recorded. A group of rabbits, whose soleus nerves were stimulated with 4 pps for 24 h daily, was compared with a control group. The electrically stimulated animals showed a faster improvement in motor function and reached their initial values a week earlier than the controls. Electrical stimulation proved to have a positive effect on the regeneration and motor recovery of nerves.

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Year:  1983        PMID: 6616196     DOI: 10.1016/0006-8993(83)90360-8

Source DB:  PubMed          Journal:  Brain Res        ISSN: 0006-8993            Impact factor:   3.252


  32 in total

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

Authors:  A A Al-Majed; C M Neumann; T M Brushart; T Gordon
Journal:  J Neurosci       Date:  2000-04-01       Impact factor: 6.167

Review 2.  The use of brief post-surgical low frequency electrical stimulation to enhance nerve regeneration in clinical practice.

Authors:  K M Chan; M W T Curran; T Gordon
Journal:  J Physiol       Date:  2016-03-24       Impact factor: 5.182

Review 3.  Biomaterial design strategies for the treatment of spinal cord injuries.

Authors:  Karin S Straley; Cheryl Wong Po Foo; Sarah C Heilshorn
Journal:  J Neurotrauma       Date:  2010-01       Impact factor: 5.269

4.  Delaying the onset of treadmill exercise following peripheral nerve injury has different effects on axon regeneration and motoneuron synaptic plasticity.

Authors:  Jaclyn Brandt; Jonathan T Evans; Taylor Mildenhall; Amanda Mulligan; Aimee Konieczny; Samuel J Rose; Arthur W English
Journal:  J Neurophysiol       Date:  2015-01-28       Impact factor: 2.714

Review 5.  Electrical Stimulation to Enhance Axon Regeneration After Peripheral Nerve Injuries in Animal Models and Humans.

Authors:  Tessa Gordon
Journal:  Neurotherapeutics       Date:  2016-04       Impact factor: 7.620

Review 6.  Designing a bioelectronic treatment for Type 1 diabetes: targeted parasympathetic modulation of insulin secretion.

Authors:  Elliott W Dirr; Morgan E Urdaneta; Yogi Patel; Richard D Johnson; Martha Campbell-Thompson; Kevin J Otto
Journal:  Bioelectron Med (Lond)       Date:  2020-07-28

7.  Pharmacological Attenuation of Electrical Effects in a Model of Compression Neuropathy.

Authors:  Maxwell Modrak; Leigh Sundem; Ranjan Gupta; Michael J Zuscik; John Elfar
Journal:  J Bone Joint Surg Am       Date:  2019-03-20       Impact factor: 5.284

8.  H-reflex up-conditioning encourages recovery of EMG activity and H-reflexes after sciatic nerve transection and repair in rats.

Authors:  Yi Chen; Yu Wang; Lu Chen; Chenyou Sun; Arthur W English; Jonathan R Wolpaw; Xiang Yang Chen
Journal:  J Neurosci       Date:  2010-12-01       Impact factor: 6.167

Review 9.  Peripheral nerve injury and myelination: Potential therapeutic strategies.

Authors:  Max Modrak; M A Hassan Talukder; Khatuna Gurgenashvili; Mark Noble; John C Elfar
Journal:  J Neurosci Res       Date:  2019-10-13       Impact factor: 4.164

Review 10.  Strategies to promote peripheral nerve regeneration: electrical stimulation and/or exercise.

Authors:  Tessa Gordon; Arthur W English
Journal:  Eur J Neurosci       Date:  2015-08-14       Impact factor: 3.386
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