In vivo and dosimetric investigation on electrical vestibular stimulation with frequency- and amplitude-modulated currents
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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Date
2024-08-01
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en
Pages
14
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Journal of Neural Engineering, Volume 21, issue 4
Abstract
Objective. Normal function of the vestibular system can be disturbed using a noninvasive technique called electrical vestibular stimulation (EVS), which alters a person’s sense of balance and causes false sensations of movement. EVS has been widely used to study the function of the vestibular system, and it has recently gained interest as a therapeutic tool to improve postural stability and help those suffering from vestibular dysfunction. Yet, understanding of how EVS stimulates the vestibular system, the current intensity needed to produce an effect and the frequencies at which it occurs have remained unclear. Approach. The effect of EVS on postural sway was examined in five participants using sinusoidal alternating current with time-varying amplitude from 0 to 1.5 mA and frequency from 0.1 to 10 Hz for three electrode configurations. Dosimetry of the current flow inside the head was conducted using anatomically realistic computational models created individually for each subject based on magnetic resonance imaging data. An estimate for the minimal field strength capable of affecting the vestibular system was calculated with the finite element method. Main results. Bipolar EVS at frequencies up to 10 Hz caused harmonic full-body swaying, and the frequency of the sway was the same as that of the stimulation current. The size of the sway was amplified by increasing the current intensity. Dosimetry modeling indicated that, for 0.2 mA current, the average electric field strength in the vestibular system was approximately 10-30 mV m−1, depending on the electrode montage. The size of the measured postural sway was proportional to the montage-specific electric field strength in the vestibular system. Significance. The results provide insight to EVS’s working mechanisms and improve its potential as a tool to study the sense of balance.Description
Publisher Copyright: © 2024 The Author(s). Published by IOP Publishing Ltd.
Keywords
balance, dosimetry, electrical vestibular stimulation, electromagnetic field exposure, extremely low frequency
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Citation
Nissi, J, Kangasmaa, O, Kataja, J, Bouisset, N & Laakso, I 2024, ' In vivo and dosimetric investigation on electrical vestibular stimulation with frequency- and amplitude-modulated currents ', Journal of Neural Engineering, vol. 21, no. 4, 046038 . https://doi.org/10.1088/1741-2552/ad658f