Acute changes in soleus H-reflex facilitation and central motor conduction after targeted physical exercises

Noam Y. Harel, Stephanie A. Martinez, Steven Knezevic, Pierre K. Asselin, Ann M. Spungen

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

We tested the acute effect of exercises targeted simultaneously at cortical and brainstem circuits on neural transmission through corticobulbar connections. Corticobulbar pathways represent a potential target for rehabilitation after spinal cord injury (SCI), which tends to spare brainstem circuits to a greater degree than cortical circuits. To explore this concept, able-bodied volunteers (. n=. 20) underwent one session each of three exercises targeted at different nervous system components: treadmill walking (spinal locomotor circuits), isolated balance exercise (brainstem and other pathways), and multimodal balance plus skilled hand exercise (hand motor cortex and corticospinal tract). We found that short-interval soleus H-reflex facilitation increased after one session of balance and multimodal exercise by 13.2. ±. 4.0% and 8.3. ±. 4.7%, and slightly decreased by 1.9. ±. 4.4% after treadmill exercise (. p=. 0.042 on ANOVA across exercise type). Increases in long-interval H-reflex facilitation were not significantly different between exercises. Both balance and multimodal exercise increased central motor conduction velocity by 4.3. ±. 2.6% and 4.5. ±. 2.8%, whereas velocity decreased by 4.3. ±. 2.7% after treadmill exercise (. p=. 0.045 on ANOVA across exercise type). In conclusion, electrophysiological transmission between the motor cortex and spinal motor neurons in able-bodied subjects increased more following one session of balance exercise than treadmill exercise.

Original languageEnglish
Pages (from-to)438-443
Number of pages6
JournalJournal of Electromyography and Kinesiology
Volume25
Issue number3
DOIs
StatePublished - 1 Jun 2015

Keywords

  • Balance exercise
  • Corticospinal
  • H-reflex facilitation
  • Reticulospinal
  • Transcranial magnetic stimulation

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