Differences in the recovery of excitability in sensory and motor axons of human median nerve

doi:10.1093/brain/119.4.1099

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Brain, Vol. 119, No. 4, 1099-1105, 1996
© 1996 Guarantors of Brain

research-article

Differences in the recovery of excitability in sensory and motor axons of human median nerve

Matthew C. Kiernan, Ilona Mogyoros and David Burke

Prince of Wales Medical Research Institute and the Department of Neurology, Prince of Wales Hospital Randwick, Sydney, Australia

Correspondence to: Correspondence to: Dr Matthew Kiernan, Prince of Wales Medical Research Institute, High Street, Randwick, NSW, Australia 2031

Following conduction of an action potential there is a stereotypedsequence of changes in excitability as axons are initially refractory,then superexcitable and finally subexcitable. These activity-dependentoscillations in excitability subside over 100 ms and togetherconstitute the recovery cycle. The present study was undertakenfirst to document the recovery cycle of sensory and motor axonsof different threshold and, secondly, to compare the changesin sensory axons with those in motor axons. A computerized threshold-trackingsystem was used to measure recovery cycles in six healthy subjects;stimuli were applied to the median nerve at the wrist. Changesin the threshold required to produce an antidromic compoundsensory action potential (CSAP) and an orthodromic compoundmuscle action potential (CMAP) of fixed amplitude (30%, 50%and 70% of maximal) were recorded following a single supramaximalconditioning stimulus. Normalized recovery cycles were identicalfor axons of different threshold, whether sensory or motor,and were reproducible on repeat testing. However, there weresignificant differences between the changes in sensory and motoraxons, with greater supernormality and greater late subnormalityin motor axons. The greater changes in motor axons could notbe explained by differences in the strength-duration propertiesof sensory and motor axons. There are biophysical differencesin the properties of sensory and motor axons and these differencesmay underlie the differential susceptibility of sensory andmotor axons in peripheral nerve disorders.

supernormality; subnormality; sensory axons; motor axons

Received December 29, 1995. Revised March 14, 1996. Accepted April 1, 1996.

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