前庭极低频磁电刺激对人主观视觉垂直感知的影响

IF 1.8 3区生物学 Q3 BIOLOGY

Bioelectromagnetics Pub Date : 2022-07-08 DOI:10.1002/bem.22417

Nicolas Bouisset, Sébastien Villard, Alexandre Legros

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引用次数: 0

摘要

来自极低频磁场(ELF-MF)和交流电流(AC)刺激的电场影响人类的神经生理学。前庭毛细胞作为视网膜的光感受器，是梯度电位细胞，对电场敏感。电膦烯和磁膦烯文献提示交流电和ELF-MF对前庭毛细胞的影响不同。此外，虽然交流电更全面地调节前庭系统，但侧向ELF-MF刺激可能更具有脑室特异性。因此，为了进一步研究elf - mf诱导的电场对人类前庭系统的影响以及与交流刺激的电位差异，我们使用主观视觉垂直(SVV)范式研究了两种刺激方式对垂直感知的影响。对于相似的SVV精度水平，ELF-MF条件需要更多的时间来调整SVV，并且与交流前庭特异性刺激相比，ELF-MF条件下SVV的变异性更高。然而，交流和低频-中频刺激之间的差异很小。总的来说，这项研究强调了交流电和ELF-MF前庭刺激之间的微小差异，强调了潜在的神经贡献，并对国际暴露指南和标准具有启示意义。©2022生物电磁学学会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Vestibular Extremely Low-Frequency Magnetic and Electric Stimulation Effects on Human Subjective Visual Vertical Perception

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Vestibular Extremely Low-Frequency Magnetic and Electric Stimulation Effects on Human Subjective Visual Vertical Perception

Electric fields from both extremely low-frequency magnetic fields (ELF-MF) and alternating current (AC) stimulations impact human neurophysiology. As the retinal photoreceptors, vestibular hair cells are graded potential cells and are sensitive to electric fields. Electrophosphene and magnetophosphene literature suggests different impacts of AC and ELF-MF on the vestibular hair cells. Furthermore, while AC modulates the vestibular system more globally, lateral ELF-MF stimulations could be more utricular specific. Therefore, to further address the impact of ELF-MF-induced electric fields on the human vestibular system and the potential differences with AC stimulations, we investigated the effects of both stimulation modalities on the perception of verticality using a subjective visual vertical (SVV) paradigm. For similar levels of SVV precision, the ELF-MF condition required more time to adjust SVV, and SVV variability was higher with ELF-MF than with AC vestibular-specific stimulations. Yet, the differences between AC and ELF-MF stimulations were small. Overall, this study highlights small differences between AC and ELF-MF vestibular stimulations, underlines a potential utricular contribution, and has implications for international exposure guidelines and standards. © 2022 Bioelectromagnetics Society.

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来源期刊

Bioelectromagnetics 生物-生物物理

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Bioelectromagnetics is published by Wiley-Liss, Inc., for the Bioelectromagnetics Society and is the official journal of the Bioelectromagnetics Society and the European Bioelectromagnetics Association. It is a peer-reviewed, internationally circulated scientific journal that specializes in reporting original data on biological effects and applications of electromagnetic fields that range in frequency from zero hertz (static fields) to the terahertz undulations and visible light. Both experimental and clinical data are of interest to the journal''s readers as are theoretical papers or reviews that offer novel insights into or criticism of contemporary concepts and theories of field-body interactions. The Bioelectromagnetics Society, which sponsors the journal, also welcomes experimental or clinical papers on the domains of sonic and ultrasonic radiation.