Validating sensory conflict theory and mitigating motion sickness in humans with galvanic vestibular stimulation.

Communications engineering Pub Date : 2025-04-27 DOI:10.1038/s44172-025-00417-2

Aaron R Allred, Aadhit R Gopinath, Torin K Clark

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Abstract

Per sensory conflict theory, vestibular sensory information has been proposed to drive motion sickness given deviations from central expectations. However, the consistency of motion sickness with quantitative predictions of manipulated vestibular sensory conflict remains untested. Here, we evaluated motion sickness symptoms within 10 participants exposed to galvanic vestibular stimulation (GVS) designed to manipulate vestibular sensory conflict during passive physical translations. Using a computational methodology, equal and opposite GVS waveforms were designed to reduce (Beneficial) or increase (Detrimental) motion sickness while controlling all other sources of sensory information and central confounds. Beneficial GVS produced a 26% motion sickness reduction, and Detrimental GVS produced a 56% increase (p = 0.0055), demonstrating the causal role of vestibular information in human motion sickness. Validating our predictions, this finding supports the theory that vestibular sensory conflict mediates motion sickness and facilitates new methods and countermeasures for mitigating motion sickness during transportation and in virtual environments.

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验证感觉冲突理论和减轻人类前庭电刺激的晕动病。

根据感觉冲突理论，前庭感觉信息被认为与中心期望偏差导致晕动病。然而，晕车与被操纵的前庭感觉冲突的定量预测的一致性仍有待检验。在这里，我们评估了10名参与者的晕车症状，这些参与者暴露于前庭电刺激（GVS）中，该刺激旨在操纵被动物理翻译过程中的前庭感觉冲突。使用计算方法，设计相等和相反的GVS波形来减少（有益）或增加（有害）晕动病，同时控制所有其他感觉信息来源和中心混淆。有益的GVS使晕动病减少26%，有害的GVS使晕动病增加56% (p = 0.0055)，证明前庭信息在人类晕动病中的因果作用。验证我们的预测，这一发现支持了前庭感觉冲突介导晕动病的理论，并促进了在交通和虚拟环境中减轻晕动病的新方法和对策。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications engineering

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