Proof of mechanism investigation of Transcutaneous auricular vagus nerve stimulation through simultaneous measurement of autonomic functions: a randomized controlled trial protocol.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-18 DOI:10.1186/s13030-024-00311-x
Ruri Katsunuma, Tsunehiko Takamura, Mitsuhiko Yamada, Atsushi Sekiguchi
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Abstract

Background: The autonomic nervous system plays a vital role in regulating physiological functions. Transcutaneous auricular vagus nerve stimulation (taVNS) is a method that provides insights into autonomic nerve modulation. This paper presents a research protocol investigating proof of mechanism for the impact of taVNS on autonomic functions and aims to both deepen theoretical understanding and pave the way for clinically relevant applications.

Methods: This protocol employs a single-blind, randomized cross-over design involving 10 healthy male participants. Simultaneous assessment of both the afferent and efferent aspects of the vagus nerve will be performed by integrating physiological measures, magnetic resonance imaging, and a questionnaire survey. Electrocardiogram will be measured to assess changes in heart rate, as a primary outcome, and heart rate variability. Active taVNS and sham stimulation will be compared, which ensures precision and blinding. Electrical stimulation will be applied to the left concha cymba and the left lobule for the active and sham conditions, respectively. The specific parameters of taVNS involve a pulse width of 250 µs, a frequency of 25 Hz, and a current adjusted to the perception threshold (0.1 mA ≤ 5 mA), delivered in cycles of 32 s on and 28 s off.

Conclusions: This research investigates proof of mechanism for taVNS to elucidate its modulatory effects on the central and peripheral components of the autonomic nervous system. Beyond theoretical insights, the findings will provide a foundation for designing targeted neuromodulation strategies, potentially benefiting diverse patient populations experiencing autonomic dysregulation. By elucidating the neural mechanisms, this study contributes to the evolution of personalized and effective clinical interventions in the field of neuromodulation.

Trial registration: JRCT, jRCTs032220332, Registered 13 September 2022; https://jrct.niph.go.jp/latest-detail/jRCTs032220332 .

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通过同时测量自律神经功能对经皮耳模迷走神经刺激进行机制验证研究:随机对照试验方案。
背景:自律神经系统在调节生理功能方面发挥着重要作用。经皮耳廓迷走神经刺激(taVNS)是一种能深入了解自律神经调节的方法。本文介绍了一项研究方案,调查taVNS对自律神经功能影响的机制证明,旨在加深理论理解并为临床相关应用铺平道路:该方案采用单盲、随机交叉设计,涉及 10 名健康男性参与者。将通过综合生理测量、磁共振成像和问卷调查对迷走神经的传入和传出进行同步评估。将测量心电图以评估心率变化(作为主要结果)和心率变异性。将对活性 taVNS 和假刺激进行比较,以确保精确性和盲法。电刺激将分别作用于主动和假性条件下的左侧冠状动脉和左侧小叶。taVNS的具体参数包括250微秒的脉冲宽度、25赫兹的频率以及根据感知阈值调整的电流(0.1毫安≤5毫安),以32秒开28秒关为周期进行刺激:本研究调查了 taVNS 的机制证明,以阐明其对自律神经系统中枢和外周组成部分的调节作用。除理论见解外,研究结果还将为设计有针对性的神经调控策略奠定基础,从而使自主神经失调的不同患者群体从中受益。通过阐明神经机制,这项研究有助于神经调控领域个性化和有效临床干预措施的发展:JRCT,jRCTs032220332,2022年9月13日注册;https://jrct.niph.go.jp/latest-detail/jRCTs032220332 。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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