Galvanic vestibular stimulation produces cross-modal improvements in visual thresholds

TL;DR

This study demonstrates that noisy galvanic vestibular stimulation can improve visual perception thresholds through cross-modal effects, but does not affect auditory thresholds, highlighting selective sensory enhancement via vestibular noise.

Contribution

First to show cross-modal perceptual threshold improvements induced by noisy galvanic vestibular stimulation in humans.

Findings

18% improvement in visual thresholds with nGVS

Subjects with higher baseline thresholds benefited more

Auditory thresholds remained unchanged

Abstract

Background: Stochastic resonance (SR) refers to a faint signal being enhanced with the addition of white noise. Previous studies have found that vestibular perceptual thresholds are lowered with noisy galvanic vestibular stimulation (i.e., "in-channel" SR). Auditory white noise has been shown to improve tactile and visual thresholds, suggesting "cross-modal" SR. Objective: We aimed to study the cross-modal impact of noisy galvanic vestibular stimulation (nGVS) (n=9 subjects) on visual and auditory thresholds. Methods: We measured auditory and visual perceptual thresholds of human subjects across a swath of different nGVS levels in order to determine if a subject-specific best nGVS level elicited a reduction in thresholds as compared the no noise condition (sham). Results: We found an 18% improvement in visual thresholds (p = 0.026). Among the 7 of 9 subjects with reduced thresholds, the average improvement was 26%. Subjects with higher (worse) visual thresholds with no stimulation (sham) improved more than those with lower thresholds (p = 0.005). Auditory thresholds were unchanged by vestibular stimulation. Conclusions: These results are the first demonstration of cross-modal improvement with nGVS, indicating galvanic vestibular white noise can produce cross-modal improvements in some sensory channels, but not all.