Same Potential, Different Muscle: Masseter Acoustic/Vestibular Evoked Myogenic Potentials Can Also Be Recorded From Temporalis Muscle.

IF 1.8 4区医学 Q3 AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY

American Journal of Audiology Pub Date : 2025-09-02 Epub Date: 2025-08-18 DOI:10.1044/2025_AJA-25-00031

Vinayagar Pazhani Thirusangu, Prajeesh Thomas

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引用次数: 0

Abstract

Purpose: The masseter acoustic/vestibular evoked myogenic potential (mVEMP) is a recently developed electrophysiological tool used to assess otolithic function. The mVEMP assesses brainstem integrity and is sensitive in detecting brainstem lesions. The masseter muscles are supplied by the mandibular branch of the fifth cranial nerve and help stabilize the jaw in response to high-intensity sound. The temporalis and masseter muscles function together to stabilize the mandible. Both muscles are supplied by the trigeminal nerve. Hence, the study hypothesized that mVEMP could also be recorded from the temporalis muscle.

Method: Twenty healthy adults (13 males and seven females; age range: 18-28 years) were recruited for the study. mVEMPs were recorded using a 500-Hz tone burst with 125 dB peSPL for all individuals. Vestibular evoked myogenic potentials (VEMPs) were then recorded in the temporalis muscle of the same individuals. VEMPs from the masseter and temporalis muscles were recorded ipsilaterally, contralaterally, and bilaterally, respectively. A within-subject design was adopted, and purposive sampling was used to assign the subjects.

Results: Both VEMPs from the masseter and temporalis muscles elicited a 100% response rate. A paired t test revealed no significant difference (p > .05) in the p11 and n21 latencies for unilateral and bilateral stimulation between masseter and temporalis VEMPs. In addition, a paired t test revealed a significant difference (p < .05) in the p11-n21 rectified amplitude between the masseter and temporalis VEMPs. The rectified amplitude for the temporalis muscle was reduced than masseter muscle.

Conclusions: The study found that VEMPs recorded from the temporalis muscle are similar to mVEMPs. This preliminary finding supports that the temporalis serves as an alternate muscle to record mVEMP.

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相同电位，不同肌肉：颞肌也可记录咬肌声/前庭诱发肌源电位。

目的：咬肌声/前庭诱发肌电位（mVEMP）是最近发展起来的一种用于评估耳石功能的电生理工具。mVEMP评估脑干完整性，在检测脑干病变方面很敏感。咬肌是由第五颅神经的下颌分支支配的，在听到高强度声音时帮助稳定下颌。颞肌和咬肌共同作用稳定下颌骨。这两块肌肉都由三叉神经支配。因此，本研究假设颞肌也可以记录mVEMP。方法：招募20名健康成人（男性13名，女性7名，年龄18-28岁）参与研究。对所有个体使用125 dB peSPL的500 hz音暴记录mvemp。然后在同一个体的颞肌中记录前庭诱发肌生成电位（VEMPs）。分别记录咬肌和颞肌的同侧、对侧和双侧vemp。采用受试者内设计，并采用有目的抽样来分配受试者。结果：来自咬肌和颞肌的vemp均引起100%的反应率。配对t检验显示，咬肌和颞肌vemp单侧和双侧刺激的p11和n21潜伏期无显著差异（p < 0.05）。此外，配对t检验显示咬肌和颞肌vemp在p11-n21校正振幅上有显著差异（p < 0.05）。颞肌的整流幅度比咬肌的整流幅度小。结论：本研究发现，颞肌记录的vemp与mvemp相似。这一初步发现支持了颞肌作为记录mVEMP的替代肌。

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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来源期刊

American Journal of Audiology AUDIOLOGY & SPEECH-LANGUAGE PATHOLOGY-OTORHINOLARYNGOLOGY

CiteScore

3.00

自引率

16.70%

发文量

163

审稿时长

>12 weeks

期刊介绍： Mission: AJA publishes peer-reviewed research and other scholarly articles pertaining to clinical audiology methods and issues, and serves as an outlet for discussion of related professional and educational issues and ideas. The journal is an international outlet for research on clinical research pertaining to screening, diagnosis, management and outcomes of hearing and balance disorders as well as the etiologies and characteristics of these disorders. The clinical orientation of the journal allows for the publication of reports on audiology as implemented nationally and internationally, including novel clinical procedures, approaches, and cases. AJA seeks to advance evidence-based practice by disseminating the results of new studies as well as providing a forum for critical reviews and meta-analyses of previously published work. Scope: The broad field of clinical audiology, including audiologic/aural rehabilitation; balance and balance disorders; cultural and linguistic diversity; detection, diagnosis, prevention, habilitation, rehabilitation, and monitoring of hearing loss; hearing aids, cochlear implants, and hearing-assistive technology; hearing disorders; lifespan perspectives on auditory function; speech perception; and tinnitus.