Auditory feedback effect on temporal patterns during self-pacing treadmill walking
Trevor V. Evans, Megan E. Reissman, Timothy Reissman, Mark Shelhamer, Ajit M. W. Chaudhari

TL;DR
This study shows that treadmill motor sounds can affect walking patterns, suggesting that auditory feedback influences gait during self-pacing treadmill walking.
Contribution
The study demonstrates that auditory feedback from treadmill motor sounds affects temporal gait patterns during self-pacing treadmill walking.
Findings
Swing time, step time, and gait speed differed significantly between treadmill conditions with and without sound.
Participants may use treadmill motor sounds for motor planning during self-pacing treadmill walking.
Auditory feedback from treadmill sounds should be considered as a factor affecting gait patterns in research.
Abstract
Self-pacing treadmills provide advantages for assessing locomotion such as having a controlled environment and ability to accurately collect prolonged data, but the variable sounds from the treadmill belt motors when changing speed could provide artificial sensory feedback to walkers that may influence their gait while on the self-pacing treadmill. We hypothesized that temporal measures of gait on a proportionally-controlled self-pacing treadmill would be significantly different between when sound is present vs removed. Participants (n = 31) walked under two different conditions for five-minute periods each on the self-pacing treadmill: one without headphones, and the other with noise-cancelling headphones playing brown noise to mask the treadmill motor sounds. Mixed effects models were used to assess the impact of condition on temporal gait patterns. A custom accelerometer-based…
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Taxonomy
TopicsBalance, Gait, and Falls Prevention · Robotic Locomotion and Control · Motor Control and Adaptation
