The effect of light touch on balance control during overground walking in healthy young adults.
Journal:
Heliyon
Published Date:
Dec 28, 2017
Abstract
Balance control is essential for safe walking. Adding haptic input through light touch may improve walking balance; however, evidence is limited. This research investigated the effect of added haptic input through light touch in healthy young adults during challenging walking conditions. Sixteen individuals walked normally, in tandem, and on a compliant, low-lying balance beam with and without light touch on a railing. Three-dimensional kinematic data were captured to compute stride velocity (m/s), relative time spent in double support (%DS), a medial-lateral margin of stability (MOS) and its variance (MOSCV), as well as a symmetry index (SI) for the MOS. Muscle activity was evaluated by integrating electromyography signals for the soleus, tibialis anterior, and gluteus medius muscles bilaterally. Adding haptic input decreased stride velocity, increased the %DS, had no effect on the MOS magnitude, decreased the MOSCV, had no effect on the SI, and increased activity of most muscles examined during normal walking. During tandem walking, stride velocity and the MOSCV decreased, while %DS, MOS magnitude, SI, and muscle activity did not change with light touch. When walking on a low-lying, compliant balance beam, light touch had no effect on walking velocity, MOS magnitude, or muscle activity; however, the %DS increased and the MOSCV and SI decreased when lightly touching a railing while walking on the balance beam. The decreases in the MOSCV with light touch across all walking conditions suggest that adding haptic input through light touch on a railing may improve balance control during walking through reduced variability.
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