Abstract
The central nervous system takes advantage of prior knowledge about potential upcoming perturbations for modulating postural reflexes. There are two distinct aspects of prior knowledge: spatial and temporal. This study investigated how each of spatial and temporal prior knowledge contributes to the shortening of muscle response latency. Eleven participants walked on a split-belt treadmill and perturbed by sudden acceleration or deceleration of the right belt at right foot contact. Spatial prior knowledge was given by instruction of possible direction (e.g., only acceleration) of upcoming perturbation at the beginning of an experimental session. Temporal prior knowledge was given to subjects by warning tones at foot contact during three consecutive strides before the perturbation. In response to acceleration perturbation, reflexive muscle activity was observed in soleus (SOL) and gastrocnemius (GAS) muscles. Onset latency of the GAS response was shorter (72 ms vs. 58 ms) when subjects knew the timing of the upcoming perturbation, whereas the latency was independent of directional prior knowledge. SOL onset latency (44 ms) was not influenced by directional nor temporal prior knowledge. Although spinal neural circuit that mediates short-latency reflex was not influenced by the prior knowledge, excitability in supra-spinal neural circuit that mediates medium- and long-latency reflex might be enhanced by knowing the timing of the upcoming perturbation.
Highlights
Stumbling during walking is a common cause of fall-related injuries and balance recovery from the perturbation is of critical importance for humans
The amplitude of tibialis anterior (TA) muscle activity in response to a sudden acceleration of the treadmill belt was reduced if subjects were aware of the potential perturbation (Dietz et al, 1987)
Since we focused on the effect of prior knowledge on reflexes, practice sessions were performed before the acceleration and deceleration experimental sessions in order to allow participants take a consistent strategy throughout the experimental sessions
Summary
Stumbling during walking is a common cause of fall-related injuries and balance recovery from the perturbation is of critical importance for humans. Prior Knowledge Shortens Reflex Latency and well-coordinated inter-segmental muscle activation patterns are observed (Dietz et al, 1987; Horak et al, 1997). This taskrelevant postural reflex is thought advantageous to maintain balance against a large variety of perturbations that could occur in the real world. But reflex latency can be shortened by knowing that they might be perturbed by an unexpected hole in a walkway (Shinya and Oda, 2010) These studies clearly suggest the central nervous system takes advantage of prior knowledge about potential upcoming perturbations and modulate walking strategies and reflex patterns
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