J Korean Soc Clin Neurophysiol.  2012 Dec;14(2):64-71.

Altered Peripheral Nerve Excitability Properties in Acute and Subacute Supratentorial Ischemic Stroke

Affiliations
  • 1Department of Neurology, Inje University College of Medicine, Busan, Korea. neurobae@yahoo.co.kr
  • 2Department of Neurosurgery, Inje University College of Medicine, Busan, Korea.

Abstract

BACKGROUND
It is generally accepted that upper motor neuron (UMN) lesion can alter lower motor neuron (LMN) function by the plasticity of neural circuit. However there have been only few researches regarding the axonal excitability of LMN after UMN injury especially during the acute stage. The aim of this study was to investigate the nerve excitability properties of the LMNs following an acute to subacute supratentorial corticospinal tract lesion.
METHODS
An automated nerve excitability test (NET) using the threshold tracking technique was utilized to measure multiple excitability indices in median motor axons of 15 stroke patients and 20 controls. Testing of both paretic and non-paretic side was repeated twice, during the acute stage and subacute stage. The protocols calculated the strength-duration time constant from the duration-charge curve, parameters of threshold electrotonus (TE), the current-threshold relationship from sequential sub-threshold current, and the recovery cycle from sequential supra-threshold stimulation.
RESULTS
On the paretic side, compared with the control group, significant decline of superexcitablity and increase in the relative refractory period were observed during the subacute stage of stroke. Additionally, despite the absence of statistical significance, a mildly collapsing in ('fanning in') of the TE was found.
CONCLUSIONS
Our results suggest that supratentorial brain lesions can affect peripheral axonal excitability even during the early stage. The NET pattern probably suggests background membrane depolarization of LMNs. These features could be associated with trans-synaptic regulation of UMNs to LMNs as one of the "neural plasticity" mechanisms in acute brain injury.

Keyword

Nerve excitability; Threshold tracking; Peripheral nerve; Acute stroke; Neural plasticity

MeSH Terms

Axons
Brain
Brain Injuries
Humans
Membranes
Motor Neurons
Peripheral Nerves
Pyramidal Tracts
Stroke
Track and Field
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