Noisy galvanic vestibular stimulation effect on center of pressure sway during one-legged standing

•nGVS at 0.2 mA decreased COP sway when standing on one leg.•COP sway was not changed by Sham stimulations or nGVS at 0.4 mA.•0.2 mA nGVS reduced COP sway on one leg more effectively than Sham or 0.4 mA nGVS. Noisy galvanic vestibular stimulation (nGVS) involves the application of a weak, noisy, ele...

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Bibliographic Details
Published in:Journal of clinical neuroscience 2020-12, Vol.82 (Pt A), p.173-178
Main Authors: Inukai, Yasuto, Miyaguchi, Shota, Kobayashi, Natsuki, Otsuru, Naofumi, Onishi, Hideaki
Format: Article
Language:English
Subjects:
Adult
Balance
Center of pressure
Electric Stimulation
Electrodes
Female
Humans
Male
Noisy galvanic vestibular stimulation
One-legged standing
Postural Balance - physiology
Posture - physiology
Vestibular
Vestibule, Labyrinth - physiology
Young Adult
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Summary:•nGVS at 0.2 mA decreased COP sway when standing on one leg.•COP sway was not changed by Sham stimulations or nGVS at 0.4 mA.•0.2 mA nGVS reduced COP sway on one leg more effectively than Sham or 0.4 mA nGVS. Noisy galvanic vestibular stimulation (nGVS) involves the application of a weak, noisy, electrical current to the vestibular end organs and their afferent nerves, through electrodes placed bilaterally over the mastoid process. Center of pressure (COP) sway was shown to decrease during nGVS under conditions of static standing posture. However, whether nGVS can improve balance functions other than the static standing posture remains unclear. This study aimed to elucidate the effects of nGVS on COP sway during one-legged standing. We randomly assigned 36 participants to either a control group (sham stimulation), a 0.2 mA group (nGVS at 0.2 mA), or a 0.4 mA group (nGVS at 0.4 mA). All participants were measured for COP sway standing on one leg, with open eyes, both before and during stimulation. In the 0.2 mA group, the sway path length, mediolateral mean velocity, and anteroposterior mean velocity decreased during stimulation compared with before stimulation. Conversely, no significant differences in COP sway were detected for either the control group or the 0.4 mA group. The stimulation effects for all COP sway parameters were significantly higher in the 0.2 mA group than in either the control group or the 0.4 mA group. The results of this study suggested that nGVS not only decreases COP sway during static standing postures but can also reduce COP sway during one-legged standing.
ISSN:0967-5868
1532-2653
DOI:10.1016/j.jocn.2020.10.050