Unperceivable noise to active light touch effects on fast postural sway

Human postural sway during quiet standing is reduced when a fingertip lightly touches a stable surface. The tactile feedback information from the fingertip has been considered responsible for this effect of light touch. Studies have shown that a noise-like minute stimulation to the sensory system can improve the system's weak signal detection. In the present study, we investigated whether a noise-like unperceivable vibration on the fingertip enhances its tactile sensation and facilitates the effect of light touch during quiet standing. Thirteen volunteers maintained quiet standing while lightly touching a touch surface with the index fingertip. Based on each subject's vibrotactile threshold (VT), a noise-like vibration was applied to the touch surface at amplitudes under (0.5VT) or at VT (1.0VT), in addition to the normal light touch condition (no vibration, 0VT). The results showed that the mean velocities of the foot center of pressure (CoP) in both the anteroposterior (AP) and mediolateral (ML) directions were significantly reduced at 0.5VT compared to 0VT and 1.0VT (P < 0.05), while there was no significant difference between 1.0VT and 0VT (P > 0.05). Frequency analysis of CoP revealed that the power of high-frequency fluctuation (1-10 Hz) was significantly reduced at 0.5VT (P < 0.05), whereas no significant change was observed in that of low-frequency sway (below 1 Hz) (P > 0.05). These results indicate that an unperceivable noise-like vibration can facilitate the effect of light touch on postural stability, by further reducing fast postural sway.

► Fingertip active light touch reduces postural sway during quiet standing. ► We enhanced active light touch effect by injecting minute noise on fingertip. ► Noise effect on active light touch depends on the intensity of injected noise. ► The subthreshold noise contributes to reduction of fast postural sway.