Novel human models for elucidating mechanisms of rate-sensitive H-reflex depression

Ya Ju Chang, Yu Ching Liu, Miao Ju Hsu, Chia Ying Fang, Alice M. Wong, Stacey L. DeJong, Richard K. Shields*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

5 Scopus citations

Abstract

Background: This study used novel human neurophysiologic models to investigate whether the mechanism of rate-sensitive H-reflex depression lies in the pre-synaptic or post-synaptic locus in humans. We hypothesized that pre-synaptic inhibition would suppress Ia afferents and H-reflexes without suppressing alpha motor neurons or motor evoked potentials (MEPs). In contrast, post-synaptic inhibition would suppress alpha motor neurons, thereby reducing H-reflexes and MEPs. Methods: We recruited 23 healthy adults with typical rate-sensitive H-reflex depression, 2 participants with acute sensory-impaired spinal cord injury (SCI) (to rule out influence of sensory stimulation on supra-spinal excitability), and an atypical cohort of 5 healthy adults without rate-sensitive depression. After a single electrical stimulation to the tibial nerve, we administered either a testing H-reflex or a testing MEP at 50–5000 ms intervals. Results: Testing MEPs were not diminished in healthy subjects with or without typical rate-sensitive H-reflex depression, or in subjects with sensory-impaired SCI. MEP responses were similar in healthy subjects with versus without rate-sensitive H-reflex depression. Conclusions: Results from these novel in vivo human models support a pre-synaptic locus of rate-sensitive H-reflex depression for the first time in humans. Spinal reflex excitability can be modulated separately from descending corticospinal influence. Each represents a potential target for neuromodulatory intervention.

Original languageEnglish
Pages (from-to)44-52
Number of pages9
JournalBiomedical Journal
Volume43
Issue number1
DOIs
StatePublished - 02 2020

Bibliographical note

Publisher Copyright:
© 2019 Chang Gung University

Keywords

  • H-reflex
  • Motor evoked potential
  • Pre-synaptic
  • Soleus
  • Spinal cord
  • Spinal cord injury

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