Frontiers in Rehabilitation Sciences (Jun 2024)

Selective orthotic constraint of lower limb movement during walking reveals new insights into neuromuscular adaptation

  • Christopher F. Hovorka,
  • Christopher F. Hovorka,
  • Christopher F. Hovorka,
  • Géza F. Kogler,
  • Young-Hui Chang,
  • Robert J. Gregor

DOI
https://doi.org/10.3389/fresc.2024.1354115
Journal volume & issue
Vol. 5

Abstract

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IntroductionA concern expressed by the clinical community is that the constraint of motion provided by an ankle foot orthosis (AFO) may lead the user to become dependent on its stiffness, leading to learned non-use. To examine this, we hypothesized that using an experimental AFO-footwear combination (exAFO-FC) that constrains ankle motion during walking would result in reduced soleus and tibialis anterior EMG compared to free (exAFO-FC) and control (no AFO, footwear only) conditions.MethodA total of 14 healthy subjects walked at their preferred speed (1.34 ± 0.09 m·s-1) for 15 min, in three conditions, namely, control, free, and stop.ResultsDuring the stance phase of walking in the stop condition, ipsilateral soleus integrated EMG (iEMG) declined linearly, culminating in a 32.1% reduction compared to the control condition in the final 5 min interval of the protocol. In contrast, ipsilateral tibialis anterior iEMG declined in a variable fashion culminating in an 11.2% reduction compared to control in the final 5 min interval. During the swing phase, the tibialis anterior iEMG increased by 6.6% compared to the control condition during the final 5 min interval. The contralateral soleus and tibialis anterior exhibited increased iEMG in the stop condition.DiscussionAn AFO-FC functions as a biomechanical motion control device that influences the neural control system and alters the output of muscles experiencing constraints of motion.

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