Main Article

Evolution and resolution of stimulation-induced axonal injury in peripheral nerve

Corresponding Author

William F. Agnew PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USASearch for more papers by this author

Douglas B. McCreery PhD,

Douglas B. McCreery PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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Ted G. H. Yuen PhD,

Ted G. H. Yuen PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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Leo A. Bullara BA,

Leo A. Bullara BA

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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William F. Agnew PhD,

Corresponding Author

William F. Agnew PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USASearch for more papers by this author

Douglas B. McCreery PhD,

Douglas B. McCreery PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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Ted G. H. Yuen PhD,

Ted G. H. Yuen PhD

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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Leo A. Bullara BA,

Leo A. Bullara BA

Neurological Research Department, Huntington Medical Research Institutes, 734 Fairmount Avenue, Pasadena, California, USA

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First published: 15 September 1999

https://doi.org/10.1002/(SICI)1097-4598(199910)22:10<1393::AID-MUS9>3.0.CO;2-E

Citations: 34

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Abstract

We describe the evolution of axonal injury following the induction of neural damage by electrical stimulation. The sciatic nerves of cats were stimulated continuously for 8 h with charge-balanced waveforms at high intensities, 50 Hz and 2100–4500 μA, using circumneural helical electrodes. Computer-assisted morphometric and ultrastructural studies indicate that many of the damaged fibers had not regenerated by 125 days after stimulation. Functional deficits were not observed in any of the animals, and most of the fibers appeared to be histologically normal at 125 days after stimulation. These findings indicate that there is relatively little late-onset injury associated with the stimulation. However, the slow, and possibly incomplete, recovery of the damaged axons emphasizes the importance of using stimulus protocols with adequate margins of safety. © 1999 John Wiley & Sons, Inc. Muscle Nerve 22: 1393–1402, 1999

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Volume22, Issue10

October 1999

Pages 1393-1402

Evolution and resolution of stimulation-induced axonal injury in peripheral nerve

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Evolution and resolution of stimulation-induced axonal injury in peripheral nerve

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